CN209757614U - Horizontal packing machine for aerated block - Google Patents

Abstract

The utility model relates to a horizontal baling press for aerated block belongs to material baling equipment field, and its material that includes the frame of vertical setting and set up the packing core in the frame and place the plastic steel band coils, and its technical essential is: the packing machine is characterized in that a placing seat is arranged between the packing machine core and the rack, the placing seat is connected with the rack in a vertical sliding mode, the packing machine core is arranged in the placing seat and is connected with a packing frame horizontally arranged, and a conveying assembly for conveying trays and air-filling blocks is arranged below the packing frame. The utility model provides a pair of horizontal baling press for aerated block, level set up the packing frame and make the baling press can be to the aerated block packing on carrying out the horizontal direction, prevent that the aerated block on the horizontal direction from producing not hard up and dropping even in the transportation.

Description

Horizontal packing machine for aerated block

Technical Field

The utility model belongs to the technical field of material baling equipment and specifically relates to a horizontal baling press for aerated block is related to.

Background

The air-entraining block is a novel light porous building material, has the advantages of light volume weight, high heat-insulating efficiency, good sound absorption, processability and the like, and is widely applied to bearing or non-bearing structures and pipeline heat insulation in industrial and civil buildings in China. The air-entraining blocks are mostly square during transportation, a certain number of air-entraining blocks are stacked on the tray and then bundled and packaged by the packaging machine, so that the air-entraining blocks are prevented from being loose due to vibration in the transportation vehicle.

The baling machine uses a strapping tape to strap the product or package, then tightens and bonds the two ends by means of hot melt bonding with a heating iron head. The packing is gone on in the perpendicular encircleing mostly to current baling press, and perpendicular baling press can only pack on the product vertical direction, because the aerated block piles to be piled up by the polylith aerated block and builds up and form, and the aerated block piles difficult rotation for the aerated block piles can only pack on the vertical direction, and at the in-process of aerated block transportation, not only causes the aerated block vibrations from top to bottom easily and produces not hard up, and the aerated block on adjacent both sides also is difficult not hard up even separation about it.

Therefore, a new technical solution is needed to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a horizontal baling press for aerated block, level set up the packing frame and make the baling press can be to the aerated block packing on carrying out the horizontal direction, prevent that the aerated block on the horizontal direction from producing not hard up and dropping even in the transportation.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

The utility model provides a horizontal baling press for aerated block, includes the frame of vertical setting and sets up the packing core in the frame and place the material reel of plastic steel band, it places the seat to be equipped with between packing core and the frame, place the vertical sliding connection of seat and frame, the packing core sets up in placing the seat, the packing frame that the level set up is connected to the packing core, the below of packing frame is equipped with the conveying subassembly of conveying tray and aerated block.

By adopting the technical scheme, the rack is arranged, the material reel is arranged on the rack, and the plastic steel belt on the material reel is driven by the packaging machine core to be packaged; the packing machine core is horizontally connected with the packing frame, so that a plastic steel belt conveyed out of the packing machine core is horizontally surrounded along the track of the packing frame, the air-adding block stack is horizontally packed under the action of the packing machine core, the placing seat is vertically arranged with the frame in a sliding manner, the placing seat drives the packing machine core and the packing frame to vertically slide along the vertical direction of the frame, and the air-adding block stack is horizontally packed in the vertical direction, so that the air-adding block stack is prevented from being loosened and even falling in the horizontal direction in the transportation process; convey tray and air entrainment piece through setting up conveying assembly, thereby make things convenient for the air entrainment piece to pile and remove to packing frame below and carry out the level packing.

the utility model discloses further set up to: a lifting mechanism is arranged between the rack and the placing seat, the lifting mechanism comprises two conveying rollers which are arranged up and down and chains which are meshed with the two ends of the conveying rollers, and the two ends of the placing seat are respectively and fixedly arranged on the two chains; two the transfer roller all includes the pivot of being connected with the frame rotation and coaxial fixed sets up in the sprocket at pivot both ends.

Through adopting above-mentioned technical scheme, drive through setting up elevating system and place seat and packing frame and go up and down for the packing frame is piled at the in-process that goes up and down to the aerated block and is packed perpendicularly, through setting up chain and sprocket meshing, avoids chain and sprocket to take place to skid, thereby guarantees to place the lift of seat and packing frame.

the utility model discloses further set up to: the conveying roller is connected with drive assembly, drive assembly is including setting up in the forward drive and the back drive at frame below conveying roller both ends, forward drive and direction drive all include the motor and set up in the bevel gear dish of motor output end, the bevel gear dish meshing has bevel gear, the coaxial fixed of bevel gear sets up in the conveying roller tip.

By adopting the technical scheme, the packaging frame is lifted by arranging the driving assembly to drive the conveying roller to rotate, the forward driving and the directional driving are arranged, and the motor drives the conveying roller to rotate by arranging the forward driving, so that the packaging frame is lowered; the conveying roller is driven to rotate reversely by arranging the reverse driving killing and falling motor, so that the packing frame rises; the bevel gear disc and the bevel gear are meshed to stably convert the rotation direction of the motor.

The utility model discloses further set up to: the conveying assembly comprises a conveying frame and conveying belts arranged at two ends of the conveying frame in the width direction, and a main conveying shaft and an auxiliary conveying shaft are arranged at two ends of each conveying belt respectively.

Through adopting above-mentioned technical scheme, through setting up the conveying frame and set up the conveyer belt on the conveying frame, the conveyer belt conveys under the tensioning drive of main conveying axle and vice conveying axle, and the conveyer belt drives the tray of placing in the conveyer belt top and the removal is piled to the piece of aerifing at the in-process of conveying, and the convenience is piled to the piece of aerifing and is removed packing frame below.

The utility model discloses further set up to: the packing frame below is equipped with hydraulic pressure and pushes up the dish, inside the conveying frame was arranged in to hydraulic pressure pushes up the dish and can promote the tray and rise.

By adopting the technical scheme, the hydraulic top tray is arranged in the conveying frame and pushes the tray to ascend; make packing frame top-down pack the aerated block heap through setting up the forward drive, when packing frame one end to frame bottom, the forward drive is closed, pneumatic direction drive makes the tray certain degree that rises, make the high rising of tray and aerated block heap, thereby make packing frame under reverse drive's drive, packing frame and forward drive down the position of packing crisscross, thereby make the steady rising of packing frame and descend and pack for aerated block heap that removes the in-process is even.

the utility model discloses further set up to: the two ends of one side of the packaging frame, which is far away from the packaging machine core, are provided with pull rods, and one ends of the two pull rods are fixedly connected with the placing seat.

Through adopting above-mentioned technical scheme, through set up the pull rod on packing frame and placing the seat for packing frame and placing being connected between the seat more stable.

The utility model discloses further set up to: the plastic steel belt packaging machine is characterized in that a feeding assembly is arranged in the packaging machine core, a guide rail for guiding a plastic steel belt is arranged on the inner side of the packaging frame, the guide rail is U-shaped and comprises three straight rails respectively arranged at three sides of the inner side of the packaging frame and a bent rail for connecting two adjacent straight rails; the both sides that the guide rail is located its length direction are equipped with spacing subassembly, spacing subassembly is including wrapping the limiting plate that the polylith set up along guide rail length direction and a plurality of guide rail lateral wall length direction guide bar along, and is a plurality of the guide bar all slides and runs through limiting plate and its both ends respectively with guide rail and packing frame lateral wall fixed, a plurality of the guide bar runs through reset spring, reset spring's both ends are contradicted with limiting plate and packing frame lateral wall respectively.

By adopting the technical scheme, the plastic steel belt is arranged in the packaging frame in a penetrating manner along the guide of the guide rail by arranging the guide rail, and the plastic steel belt is more convenient to transmit to the position between the two straight rails by arranging the bent rail; the plastic steel belt is limited by the limiting component in the penetrating process by arranging the limiting component, and when the plastic steel belt is packed, the packing belt is pulled to shrink to apply a force towards the center of the packing frame to the limiting plate, so that the limiting plate slides towards one side far away from the guide rail, the plastic steel belt is not limited any more, and the plastic steel belt is used for bundling and packing the gas filling block; after the reset spring is arranged, the plastic steel belt leaves the guide rail, and the limiting plate is abutted against the side wall of the guide rail again under the action of the reset spring.

The utility model discloses further set up to: the end face of the straight rail, which is abutted against the plastic steel belt, is provided with a plurality of grooves parallel to the transmission direction of the plastic steel belt along the width direction.

through adopting above-mentioned technical scheme, reduce the area of contact between plastic steel band and the straight rail through setting up the recess to reduce the frictional force between plastic steel band and the straight rail, conveniently mould the conveying of steel band on the guide rail.

To sum up, the utility model discloses a beneficial technological effect does: the packing frame is horizontally arranged on the packing machine core, and the packing frame moves along with the movement of the placing seat under the driving of the lifting mechanism, so that the aerated block stack is horizontally packed; through setting up drive assembly, go up and down under drive assembly's drive at elevating system, control elevating system's lift respectively through setting up forward drive and back drive for packing core and the steady rising and the decline of packing frame make the piece of aerifing heap and tray rise under the promotion of set up hydraulic pressure top dish, under hydraulic pressure top dish and drive assembly's cooperation, make the packing frame all to the piece of aerifing packing of carrying on the level with the decline in-process.

Drawings

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

FIG. 2 is a partial structural view of the present invention, mainly showing the connection relationship between the lifting mechanism and the frame;

Fig. 3 is a partial sectional view of the present invention, mainly showing the internal structure of the placing seat;

Fig. 4 is a partial cross-sectional view of the present invention, mainly showing the components of the lifting mechanism;

FIG. 5 is a partial cross-sectional view of the present invention, mainly illustrating the connection between the guide rail and the packing frame and the spacing assembly;

FIG. 6 is an enlarged view of portion B of FIG. 5;

FIG. 7 is an enlarged view of portion C of FIG. 5;

Fig. 8 is an enlarged view of a portion a in fig. 2.

In the figure, 1, a frame; 11. a material reel; 2. a baling movement; 21. a movable track; 211. a circular arc track; 2111. a rib; 2112. a first wedge-shaped face; 22. a connecting frame; 3. a tray; 4. packaging the frame; 5. a transfer assembly; 51. a transfer frame; 52. a conveyor belt; 53. a hydraulic top plate; 6. a placing seat; 61. an inner frame; 62. an outer frame; 63. a pushing assembly; 631. a slide rail; 632. a slide bar; 633. a rack; 634. a rotating gear; 635. a reduction motor; 64. a pull rod; 7. a lifting mechanism; 71. a conveying roller; 711. a rotating shaft; 712. a sprocket; 72. a chain; 73. a drive assembly; 731. a motor; 732. a conical fluted disc; 733. a bevel gear; 8. a guide rail; 81. a straight rail; 811. a groove; 82. bending the rail; 9. a limiting component; 91. a limiting plate; 911. a second wedge-shaped face; 92. a guide bar; 93. a return spring.

Detailed Description

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

Referring to fig. 1, for the utility model discloses a horizontal baling press for aerated block, including the frame 1 of vertical setting with set up packing core 2 on frame 1 and place plastic steel band's material reel 11, packing core 2 transmits the plastic steel band on the material reel 11. Packing core 2 is connected with the packing frame 4 that the level set up, moulds the steel band and is the level under the restriction of packing frame 4 and encircles outside at the aerated block heap to carry out the level packing to the aerated block heap.

Referring to fig. 2 and 3, in order to facilitate the installation of the packing movement 2 on the frame 1, a placing seat 6 is provided between the packing movement 2 and the frame 1, and the packing movement 2 is disposed in the placing seat 6. For making things convenient for packing frame 4 to carry out the level packing on the vertical direction that the piece of aerifing piled, place seat 6 and the vertical sliding connection of frame 1 for packing frame 4 can slide along 1 direction of height of frame along with placing seat 6. Place seat 6 including with frame 1 sliding connection's frame 62 and the fixed inside casing 61 of placing packing core 2, for the interval between convenient regulation packing core 2 and the aerated block heap, inside casing 61 and frame 62 sliding connection.

Referring to fig. 3, a pushing assembly 63 is disposed between the inner frame 61 and the outer frame 62, the pushing assembly 63 includes slide rails 631 respectively fixedly disposed at two ends of the outer frame 62, two ends of the inner frame 61 are correspondingly provided with slide bars 632 slidably engaged with the slide rails 631, and the slide bars 632 are embedded in the slide rails 631 to stably dispose the inner frame 61 in the outer frame 62, thereby ensuring the stability of the inner frame 61 connected to the outer frame 62. One side of one of the slide rails 631 is provided with a rack 633 in parallel, the tooth surface of the rack 633 is perpendicular to the lower end surface of the inner frame 61 and is engaged with a rotating gear 634, the rotating gear 634 is rotatably connected with the inner frame 61, one side of the rotating gear 634 departing from the outer frame 62 is coaxially fixed with a speed reduction motor 635, the rotating gear 634 is driven to rotate by controlling the rotation of the speed reduction motor 635, so that the rotating gear 634 moves on the rack 633, and the movement of the inner frame 61 on the outer frame 62 is more stable.

Referring to fig. 2 and 4, a lifting mechanism 7 is arranged between the placing seat 6 and the frame 1, the lifting mechanism 7 includes two conveying rollers 71 arranged up and down and chains 72 engaged with both ends of the conveying rollers 71, both ends of the placing seat 6 are respectively fixedly arranged on the two chains 72, and both conveying rollers 71 include a rotating shaft 711 rotatably connected with the frame 1 and sprockets 712 coaxially and fixedly arranged at both ends of the rotating shaft 711. By arranging the chain 72 to engage with the chain wheel 712, slipping during the transfer process is avoided, thereby affecting the lifting of the placing seat 6 and the packing frame 4.

Referring to fig. 4, in order to facilitate the lifting of the lifting mechanism 7, the conveying roller 71 is connected with a driving assembly 73, the driving assembly 73 comprises a forward driving part and a reverse driving part which are arranged at two ends of the conveying roller 71 below the frame 1, the forward driving part and the reverse driving part respectively comprise a motor 731 and a bevel gear 732 arranged at the output end of the motor 731, the bevel gear 732 is meshed with a bevel gear 733, the bevel gear 733 is coaxially and fixedly arranged at the end part of the conveying roller 71, and the rotating direction of the motor 731 is stably converted by meshing of the bevel gear 732 and the bevel gear 733. The forward-driving motor 731 and the reverse-driving motor 731 are arranged in a reverse direction, so that the forward-driving motor 731 and the reverse-driving motor 731 rotate in opposite directions, and the lifting mechanism 7 descends under the driving of the forward driving and ascends under the driving of the reverse driving.

Referring to fig. 1, in order to facilitate the air-entrapping block to move to the lower part of a packaging frame 4, a conveying tray 3 and a conveying assembly 5 for the air-entrapping block are arranged below the packaging frame 4, the conveying assembly 5 comprises a conveying frame 51 and conveying belts 52 arranged at two ends of the conveying frame 51 in the width direction, two ends of each conveying belt 52 are respectively provided with a main conveying shaft and an auxiliary conveying shaft (not shown in the figure), and the conveying belts 52 are driven by the tension of the main conveying shaft and the auxiliary conveying shafts to convey the air-entrapping block.

referring to fig. 1, for making things convenient for packing frame 4 to rise and descend the in-process homoenergetic to pack the piece heap of aerifing, be provided with hydraulic pressure top dish 53 under packing frame 4, hydraulic pressure top dish 53 is arranged in inside the transfer frame 51 and can be promoted tray 3 and rise. The hydraulic top plate 53 pushes the tray 3 to rise by half of the distance between two adjacent plastic steel belts packed on the air-entraining block piles, so that the packing frame 4 packs the air-entraining block piles in the rising process and the plastic steel belts formed by the ascending and descending processes are staggered with each other, and the packing frame 4 stably ascends and descends and packs the air-entraining block piles uniformly in the moving process.

Referring to fig. 1 and 5, because the size of the air-entrapping block pile on the tray 3 is different, in order to ensure that the plastic steel belt can tighten the air-entrapping block in the packaging process, the inner frame 61 drives the packaging machine core 2 to be slidably connected with the outer frame 62. A feeding component (not shown) is arranged in the packing machine core 2, the plastic steel belt is driven by the feeding component to be conveyed to the packing frame 4, and in order to ensure that the plastic steel belt can be quickly separated from the packing frame 4 when being fastened, a guide rail 8 for guiding the plastic steel belt is arranged on the inner side of the packing frame 4. Because install guide rail 8 and packing frame 4 and have certain length in packing frame 4, for guaranteeing packing frame 4 and place the stability of being connected between the seat 6, packing frame 4 keeps away from one side both ends of packing core 2 and is equipped with pull rod 64, the one end of two pull rods 64 all with place 6 both ends fixed connection of seat.

Referring to fig. 5 and 6, in order to avoid the plastic steel belt from being inconvenient to convey at the corner, the guide rail 8 is U-shaped and comprises three straight rails 81 respectively arranged at three inner sides of the packing frame 4 and a curved rail 82 connecting two adjacent straight rails 81, the straight rails 81 and the curved rail 82 are fixedly connected by bolts, and the arc surface of the curved rail 82 is tangent to the side wall of the straight rail 81 for guiding the plastic steel belt. In order to reduce the friction between the plastic steel belt and the guide rail 8 and to make the transmission of the plastic steel belt on the guide rail 8 smoother, the end surface of the straight rail 81 abutting against the plastic steel belt is provided with a plurality of grooves 811 (three grooves are shown in the figure) parallel to the transmission direction of the plastic steel belt along the width direction. The contact area between the plastic steel strip and the guide rail 8 is reduced by the groove 811, so that the plastic steel strip is more convenient to convey.

Referring to fig. 7 and 8, since inner frame 61 drives packing core 2 to slide under the action of pushing assembly 63, in order to ensure that the plastic steel belt can be conveyed along guide rail 8 under the driving of feeding assembly, movable rails 21 connected with guide rail 8 are arranged on both sides of packing core 2, circular arc rail 211 is arranged at one end of movable rail 21 connected with guide rail 8, circular arc rail 211 is slidably connected with straight rail 81, and the circular arc surface of circular arc rail 211 is tangent to the side wall of straight rail 81 for guiding the plastic steel belt. In order to ensure that the movable rail 21 can be kept stable in the sliding process, one side of the circular arc rail 211 departing from the circular arc surface is provided with a convex rib 2111 matched with the groove 811, and the convex rib 2111 is embedded with the groove 811 to enable the connection between the circular arc rail 211 and the straight rail 81 to be smoother.

Referring to fig. 5 and 6, the guide rail 8 is located its length direction's both sides and is equipped with spacing subassembly 9, and spacing subassembly 9 is including wrapping limiting plate 91 and a plurality of guide bar 92 along 8 lateral walls length direction of guide rail that the polylith set up along 8 length direction of guide rail, and limiting plate 91's cross-section is the L type, and limiting plate 91's one end is contradicted with packing frame 4 lateral wall is perpendicular, and the other end is located the guide rail 8 top. A gap is reserved between two limiting plates 91 which are symmetrical relative to the guide rail 8, and a gap larger than the thickness of the plastic steel belt is reserved between the end face of one end of each limiting plate 91, which is far away from the packing frame 4, and the guide rail 8, so that the plastic steel belt is limited to be positioned between the limiting plates 91 and the guide rail 8.

Referring to fig. 5 and 6, two ends of the guide rod 92 are fixed to the inside of the packing frame 4 and the outer wall of the guide rail 8, respectively, and the guide rod 92 penetrates through the limit plate 91 and is slidably connected to the limit plate 91; the guide rod 92 is penetrated with a return spring 93, and two ends of the return spring 93 are respectively abutted with the limiting plate 91 and the side wall of the packing frame 4 to drive the limiting plate 91 to move towards the guide track 8. The position of the plastic steel strip is limited by the mutual matching between the limiting plate 91 and the guide track 8, so that the conveying direction of the plastic steel strip on the guide track 8 is not wrong; when packing, the plastic steel area receives the effect of feeding component in packing core 2 to tighten up and makes the plastic steel area towards the power at 4 centers of packing frame to limiting plate 91 time for limiting plate 91 moves towards the direction of keeping away from guide rail 8, thereby no longer restricts the position of moulding the steel area.

Referring to fig. 5 and 8, since the plastic steel belt needs to pass through the movable rail 21 during the conveying process, in order to avoid the plastic steel belt from being separated during the conveying on the movable rail 21, the two sides of the packaging movement 2 are provided with a connecting frame 22 fixed with the movable rail 21 corresponding to the movable rail 21, the movable rail 21 is arranged inside the connecting frame 22, and the same limiting assemblies 9 are arranged between the two sides of the movable rail 21 along the length direction thereof and the connecting frame 22. In order to avoid the plastic steel belt from being abutted against the end face of the circular arc track 211 facing the straight rail 81 in the conveying process, the first wedge-shaped surface 2112 inclined downwards towards the straight rail 81 is arranged on one side of the circular arc track 211 departing from the movable track 21, so that the height difference between the circular arc surface of the circular arc track 211 and the end face of the straight rail 81 is further reduced, and the plastic steel belt is not abutted against the end face of the circular arc guide rail facing the straight rail 81.

Referring to fig. 8, in order to enable the circular arc track 211 to slide on the straight track 81, the position-limiting plate 91 can automatically move towards the direction away from the guide track 8, and two corners of the position-limiting plate 91 at the side away from the packing frame 4 are both provided with a second wedge-shaped surface 911 in the shape of a circular arc and incline towards the upward bending at the side away from the straight track 81. Second wedge face 911 can contradict with the both sides face of circular arc track 211, and circular arc track 211 is at the slip in-process, and it exerts the power of perpendicular to second wedge face 911 to limiting plate 91 for limiting plate 91 moves towards the direction of keeping away from guide rail 8, thereby makes circular arc track 211's removal more direction.

The implementation process of the embodiment is as follows: during operation, neatly put things in good order the piece of will aerifing on tray 3, place tray 3 on transfer assembly 5 for the piece of aerifing piles and removes packing frame 4 below under transfer assembly 5's the drive and close transfer assembly 5, rotates through control gear motor 635 and makes packing core 2 press close to and contradict at the piece of aerifing piles lateral wall. Then make packing frame 4 and baling movement 2 descend under the drive of forward drive's motor 731 through control elevating system 7, and packing frame 4 descends the in-process, when the piece of aerifing piles and enters into in packing frame 4, makes baling movement 2 carry out the conveying packing to the plastic steel belt according to established time interval through starting baling movement 2.

when packing frame 4 moves to the aerated block and piles the bottom, make tray 3 drive the aerated block under the effect of hydraulic pressure top dish 53 to rise a take the altitude through control hydraulic pressure top dish 53, close forward motor 731 simultaneously, open reverse motor 731, make packing frame 4 and packing core 2 rise under reverse drive's motor 731 drives, the plastic steel band continues to pack the aerated block under packing core 2's effect, and make its plastic steel band crisscross interval each other that the packing formed in the process of rising and descending, thereby make packing frame 4 enough keep rising and descend also can be to the aerated block to carry out even stable packing at the uniform velocity.

When the packing frame 4 is separated from the upper part of the aerated block pile, the packing machine core 2 stops working and the hydraulic top disc 53 drives the tray 3 to descend, so that the tray 3 is contacted with the conveyor belt 52 again, the conveying assembly 5 is started again, and the tray 3 is conveyed to the next process under the driving of the conveyor belt 52.

the embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a horizontal baling press for aerated block, includes frame (1) of vertical setting and set up packing core (2) on frame (1) and place material reel (11) of plastic steel strip, its characterized in that: packing core (2) and frame (1) between be equipped with place seat (6), place seat (6) and the vertical sliding connection of frame (1), packing core (2) set up in placing seat (6), packing core (2) are connected with packing frame (4) that the level set up, the below of packing frame (4) is equipped with conveying tray (3) and conveying subassembly (5) of air entrainment piece.

2. The horizontal baler for aerated blocks according to claim 1, characterized in that: a lifting mechanism (7) is arranged between the rack (1) and the placing seat (6), the lifting mechanism (7) comprises two conveying rollers (71) which are arranged up and down and chains (72) which are meshed with the two ends of the conveying rollers (71), and the two ends of the placing seat (6) are respectively and fixedly arranged on the two chains (72); and the two conveying rollers (71) comprise rotating shafts (711) rotatably connected with the frame (1) and chain wheels (712) coaxially and fixedly arranged at two ends of the rotating shafts (711).

3. The horizontal baler for aerated blocks according to claim 2, characterized in that: conveying roller (71) are connected with drive assembly (73), drive assembly (73) are including setting up forward drive and the back drive at frame (1) below conveying roller (71) both ends, forward drive and direction drive all include motor (731) and set up in awl fluted disc (732) of motor (731) output, awl fluted disc (732) meshing has bevel gear (733), bevel gear (733) coaxial fixation sets up in conveying roller (71) tip.

4. A horizontal baler for aerated blocks according to claim 3, characterised in that: the conveying assembly (5) comprises a conveying frame (51) and conveying belts (52) arranged at two ends of the conveying frame (51) in the width direction, and a main conveying shaft and an auxiliary conveying shaft are respectively arranged at two ends of each conveying belt (52).

5. The horizontal baler for aerated blocks according to claim 4, wherein: the packaging frame (4) is provided with a hydraulic top plate (53) below, the hydraulic top plate (53) is arranged in the conveying frame (51), and the hydraulic top plate (53) can push the tray (3) to ascend.

6. The horizontal baler for aerated blocks according to claim 1, characterized in that: two ends of one side of the packaging frame (4) far away from the packaging machine core (2) are provided with pull rods (64), and one ends of the two pull rods (64) are fixedly connected with the placing seat (6).

7. The horizontal baler for aerated blocks according to claim 1, characterized in that: a feeding assembly is arranged in the packaging machine core (2), a guide rail (8) for guiding a plastic steel belt is arranged on the inner side of the packaging frame (4), the guide rail (8) is U-shaped and comprises three straight rails (81) respectively arranged on three sides of the inner side of the packaging frame (4) and a bent rail (82) for connecting two adjacent straight rails (81); guide rail (8) are located its length direction's both sides and are equipped with spacing subassembly (9), spacing subassembly (9) are including wrapping limiting plate (91) and a plurality of along guide rail (8) lateral wall length direction guide bar (92) that the polylith set up along guide rail (8) length direction, and are a plurality of guide bar (92) all slide and run through limiting plate (91) and its both ends respectively with guide rail (8) and packing frame (4) lateral wall fixed, a plurality of guide bar (92) are run through and are had reset spring (93), reset spring (93)'s both ends are contradicted with limiting plate (91) and packing frame (4) lateral wall respectively.

8. The horizontal baler for aerated blocks according to claim 7, wherein: the end face of the straight rail (81) abutting against the plastic steel belt is provided with a plurality of grooves (811) parallel to the transmission direction of the plastic steel belt along the width direction.