CN216368706U - Continuous production line of aluminum honeycomb panel - Google Patents

Abstract

The utility model provides an aluminum honeycomb panel continuous production line, and belongs to the technical field of building materials. Including the panel transfer chain with be located the synchronous transfer chain directly over the panel transfer chain, be provided with a plurality of clamp plate mechanisms between panel transfer chain and the synchronous transfer chain, the entrance of panel transfer chain is provided with a beating mechanism of gluing, the panel transfer chain includes two first traction wheels and conveyer belt, synchronous transfer chain includes two second traction wheels and first chain, equidistant being provided with the location mouth with each clamp plate mechanism one-to-one on the conveyer belt, clamp plate mechanism is including fixing a position end box, location top box and a pneumatic cylinder, the outer fringe department of fixing a position end box, the outer fringe punishment of location top box do not has a sealed step, the top surface of location top box is netted breather plate, the cylinder body of pneumatic cylinder is fixed on the chain link of first chain, be provided with a sucking disc on the push rod of pneumatic cylinder, the top of location top box has a flexible air film. The utility model has the advantages of continuous production and the like.

Description

Continuous production line of aluminum honeycomb panel

Technical Field

The utility model belongs to the technical field of building materials, and relates to a continuous production line of aluminum honeycomb panels.

Background

The aluminum honeycomb plate is an application of aviation and aerospace materials in the field of civil buildings. The panel is mainly made of high-quality 3003H24 alloy aluminum plate or 5052AH14 high-manganese alloy aluminum plate. The core material adopts a hexagonal 3003 type aluminum honeycomb core, the thickness of an aluminum foil is 0.04-0.06 mm, the side length is 5-6 mm, the molding of the front and back surface skins is completed by adopting a roll forming technology, the edge folding is carried out by full-automatic machine equipment, and the front and back surface skins are tightly occluded on the installation edge. Due to the high heat conduction value between the aluminum skin and the honeycomb, the heat expansion and cold contraction of the inner aluminum skin and the outer aluminum skin are synchronous; the honeycomb aluminum skin is provided with small holes, so that gas in the plate can flow freely, and the slidable mounting buckle system cannot cause structural deformation when expanding with heat and contracting with cold, so that extremely high flatness can be ensured; adopting adhesive glue: the double-component polyurethane high-temperature curing adhesive is formed by compounding a full-automatic honeycomb plate compound production device through pressurization and high temperature, and overcomes the brittleness problem of the bonding layer of the conventional honeycomb plate. The dense honeycombs which are mutually drawn are like a plurality of small I-shaped beams, and can disperse and bear pressure from the direction of the panel, so that the panel is uniformly stressed, and the panel can still keep high flatness in a large area. Two sides are adopted for installation, and mechanical damage is avoided.

The aluminum honeycomb panel is 1/5 of the same thickness and same face building block panel weight, 1/6 of glass and 1/7 of aluminum material, thereby greatly reducing the building load and the construction cost, as the middle interlayer contains a large amount of air, the building block panel can insulate sound (the air sound insulation can reach 30dB), insulate heat (the thermal resistance can reach 0.02 (square meter. K/W)), has no combustible substance, has the fire-proof grade reaching B1 grade, is waterproof, moistureproof and has no harmful gas release, has large specific strength per unit mass, high specific rigidity (the structural rigidity is 1.7 times of the rib type), is not easy to deform, completely overcomes the defects of deformation, middle collapse and the like of other decorative panels when the single block area is large, can be cut into folded edges randomly, the surface coating can ensure the product life to be more than 30 years, the surface of the aluminum honeycomb panel has extremely high flatness, and the anti-seismic performance is only one eighth of the specific gravity of the glass curtain wall; the standard part with the thickness of 22mm has the load of more than 700 kilograms of force when the standard part is simply supported by 1 meter and has the deflection of 10 mm. After the surface is treated by fluorocarbon resin with strong corrosion resistance, the coating can be widely applied to the decoration of curtain walls, roofs, large-scale door signs, interior walls and the like of buildings. Aluminum honeycomb panels have been widely used for exterior wall decoration of buildings due to their advantages of light weight, high strength, high rigidity, etc. The honeycomb sandwich panel with the same rigidity weighs only 1/5 for aluminum and 1/10 for steel.

Three components of the aluminum honeycomb panel are generally assembled manually, and especially, the feasibility of online continuous production is greatly restricted by factors such as long curing time (tens of minutes to hours are different) of the double-component polyurethane high-temperature curing adhesive, the need of maintaining the relative positions of the three components not to loosen in the press-fitting process, and the like.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a continuous production line of aluminum honeycomb panels, aiming at the problems in the prior art, and the technical problem to be solved by the utility model is how to realize the continuous production of the aluminum honeycomb panels.

The purpose of the utility model can be realized by the following technical scheme: an aluminum honeycomb panel continuous production line is characterized by comprising a panel conveying line and a synchronous conveying line positioned right above the panel conveying line, wherein a plurality of pressing plate mechanisms are arranged between the panel conveying line and the synchronous conveying line, a gluing mechanism is arranged at an inlet of the panel conveying line, the panel conveying line comprises two first traction wheels and a conveying belt positioned between the two first traction wheels, the synchronous conveying line comprises two second traction wheels and a first chain positioned between the two second traction wheels, positioning ports which correspond to the pressing plate mechanisms one to one are arranged on the conveying belt at equal intervals, the pressing plate mechanism comprises a positioning bottom box, a positioning top box and a hydraulic cylinder, sealing steps are respectively arranged at the outer edge of the positioning bottom box and the outer edge of the positioning top box, the top surface of the positioning top box is a reticular vent plate, and the cylinder body of the hydraulic cylinder is fixed on a chain link of the first chain, the top of the positioning top box is provided with a flexible air film, the positioning bottom box, the positioning top box and the air film can form a closed cavity, the air film is provided with an air vent connecting pipe, and the air vent connecting pipe is connected with an air outlet end of an air pump.

Furthermore, sealing strips are arranged on the contact surfaces of the two sealing steps.

Furthermore, an air passage is arranged in a push rod of the hydraulic cylinder, one end of the air passage is communicated with the sucker, and the other end of the air passage is communicated with a negative pressure air source.

Furthermore, a pressure plate is fixedly arranged on a push rod of the hydraulic cylinder, and the sucker and the pressure plate are respectively positioned on two sides of a top plate of the positioning top box.

Furthermore, a plurality of supporting rollers for supporting the upper straight section of the conveying belt are arranged between the two straight sections of the conveying belt.

Furthermore, two sides of the first chain are respectively provided with a guide rail adaptive to the running track of the first chain, and a chain link of the first chain is provided with a guide block adaptive to the guide rail.

Further, beat the gum machine and construct including two driving rollers and draw the second chain between two driving rollers, two halving departments of second chain are provided with a dozen glue guns respectively, and the line of two driving rollers is perpendicular with the traffic direction of conveyer belt, links to each other through a mounting bracket between two driving rollers, the driving roller rotates and connects on the mounting bracket, the top of mounting bracket has an upper end open-ended storage to glue the box, the advancing rubber tube of beating the glue gun is inserted and is established in storing up in the glue box.

Furthermore, one of the driving rollers is driven by a servo motor, and a shell of the servo motor is fixed on the mounting frame.

The aluminum honeycomb panel comprises aluminum frame, backplate and honeycomb rack three, and control conveyer belt and first chain are with the uniform velocity slow motion of same speed, opposite direction, and aluminum honeycomb panel continuous production process is as follows: A. placing the positioning bottom boxes at the inlet of the conveying belt one by one; B. placing an aluminum frame matched with the positioning bottom box in the positioning bottom box; C. the gluing mechanism is used for uniformly gluing the bottom surface of the inner side of the aluminum frame; D. fixing the back plate through a sucking disc, and adjusting the position of the back plate to be overlapped with the aluminum frame; E. controlling a back plate positioned right above the glued aluminum frame to be attached to the aluminum frame through a hydraulic cylinder, so that the surface of the back plate, which is right opposite to the bottom surface of the inner side of the aluminum frame, is adhered with bonding glue, and the bonding glue on the back plate and the aluminum frame is uniform after multiple operations; F. controlling the hydraulic cylinder to move the back plate upwards, placing the honeycomb net rack in the aluminum frame, and ensuring the honeycomb net rack to be flattened; G. controlling the hydraulic cylinder again to move the back plate downwards to the back plate, the honeycomb net rack and the aluminum frame to be mutually abutted and superposed; H. under the condition of keeping the back plate, the honeycomb net rack and the aluminum frame to be stacked, air with certain pressure is blown into the air film, the air pressure is kept, and the sucking disc is separated from the connection with the back plate; I. when the aluminum frame runs to the tail end of the conveying belt, the back plate, the honeycomb net rack and the aluminum frame are compressed and compounded for the time required by the curing of the bonding glue, and the manufactured aluminum honeycomb is taken out from the tail end of the conveying belt.

The technical problem that this scheme can be solved and the effect that can reach as follows:

1. the bonding glue is high-temperature-resistant glue with low fluidity, only a reticular glue network consisting of adhesive tapes can be formed by gluing the aluminum frame through the gluing mechanism, the complete coverage on the aluminum frame cannot be formed, the existence of the bonding glue cannot be ensured at all the contact positions of the honeycomb net rack and the aluminum frame, and further, if the glue network is not flattened, the bonding strength of the honeycomb net rack and the aluminum frame is influenced; in addition, in the traditional process, the back plate needs to be independently glued, and in the scheme, the back plate is close to and attached to the glued aluminum frame, so that the back plate and the aluminum frame are flattened by the glue, and the back plate can be glued.

2. The conveyer belt runs slowly, can the on-line operation aluminium frame place, the installation of backplate and the drawing of honeycomb rack, also can cross the assurance and close the piece and compress tightly to the solidification of bonding glue simultaneously, can realize online continuous operation.

3. Air with certain pressure is injected into a sealed cavity formed by the positioning bottom box, the positioning top box and the air film, the air uniformly acts on the upper surface of the back plate through the vent plate, uniform and stable pressure is applied to the back plate, and uniform pressing force among the back plate, the aluminum frame and the honeycomb net rack is ensured; the positioning top box and the positioning bottom box are sealed by the pressure of the hydraulic cylinder at the moment, and the high-pressure airflow in the air film is not enough to influence the sealing performance of the positioning top box and the positioning bottom box; in the traditional mode, a negative pressure mode is adopted to realize the lamination process, namely: utilize a vacuum bag with the backplate of superpose, aluminium frame and honeycomb rack three parcel, then carry out the evacuation to the vacuum bag, compress tightly the three through the negative pressure, glue the solidification after can, however, this kind of mode can cause the excessive condition of gluing of gap department of backplate and aluminium frame, also can cause the condition that the bonding glue flows in the small margin in the laminating cavity, still because of the aluminium frame edges and corners is lacerated the vacuum bag easily and is caused the production of substandard product, consequently, the negative pressure mode is inferior to this scheme.

4. The gluing mechanism can continuously feed in the moving process of the gluing gun, and the adhesive glue is also convenient to add.

5. This scheme working strength is little, online number is few, and a production line only needs two people, goes up the aluminium frame, and another settles the backplate, and the synchronous transfer chain is located panel transfer chain top, and is also reasonable relatively to the utilization in workshop space.

Drawings

FIG. 1 is a schematic structural diagram of the continuous production line of aluminum honeycomb panels.

Fig. 2 is an exploded view of the glue application mechanism.

Fig. 3 is an exploded view of the platen mechanism.

Fig. 4 is an exploded view of the outer frame and the mesh ventilation board for positioning the top box.

Fig. 5 is a structural schematic diagram of a positioning top box carried by a hydraulic cylinder.

Fig. 6 is a schematic structural diagram of the honeycomb aluminum with the back plate removed.

Fig. 7 is a schematic structural view of a honeycomb aluminum sheet.

Fig. 8 is a block flow diagram of a honeycomb aluminum sheet production process.

In the figure, 1, a pressing plate mechanism; 11. a first traction wheel; 12. a conveyor belt; 13. a second traction wheel; 14. a first chain; 15. positioning the opening; 16. positioning the bottom box; 17. positioning the set top box; 18. a hydraulic cylinder; 19. a mesh aeration panel; 21. a suction cup; 22. a gas film; 23. a platen; 24. a support roller; 3. a gluing mechanism; 31. a driving roller; 32. a second chain; 33. a glue gun; 34. a glue storage box; 35. a servo motor; 41. an aluminum frame; 42. a honeycomb net rack; 43. a back plate.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, 3, 4 and 5, the aluminum honeycomb panel continuous production line includes a panel conveying line and a synchronous conveying line located right above the panel conveying line, a plurality of pressing plate mechanisms 1 are arranged between the panel conveying line and the synchronous conveying line, a gluing mechanism 3 is arranged at an inlet of the panel conveying line, the panel conveying line includes two first traction wheels 11 and a conveying belt 12 located between the two first traction wheels 11, the synchronous conveying line includes two second traction wheels 13 and a first chain 14 located between the two second traction wheels 13, positioning ports 15 corresponding to the pressing plate mechanisms 1 are arranged on the conveying belt 12 at equal intervals, the pressing plate mechanisms 1 include positioning bottom boxes 16, positioning top boxes 17 and a hydraulic cylinder 18, a sealing step is respectively arranged at the outer edges of the positioning bottom boxes 16 and the positioning top boxes 17, the top surfaces of the positioning top boxes 17 are mesh ventilation plates 19, the cylinder body of the hydraulic cylinder 18 is fixed on the chain link of the first chain 14, a suction disc 21 is arranged on the push rod of the hydraulic cylinder 18, the push rod of the hydraulic cylinder 18 penetrates through the top surface of the positioning top box 17, a flexible air film 22 is arranged on the top of the positioning top box 17, the positioning bottom box 16, the positioning top box 17 and the air film 22 can form a closed cavity, a ventilation connecting pipe is arranged on the air film 22, and the ventilation connecting pipe is connected with the air outlet end of an air pump.

Through the mode of the longitudinal superposition of the double circulation belts, the two external action structures of the combined sheet are respectively arranged on the two circulation belts, so that the synchronization of the two circulation belts is ensured, and the space can be saved.

Sealing strips are arranged on the contact surfaces of the two sealing steps, and the contact parts can be sealed when the positioning top box 17 and the positioning bottom box 16 are mutually pressed.

An air channel is arranged in the push rod of the hydraulic cylinder 18, one end of the air channel is communicated with the suction cup 21, and the other end of the air channel is communicated with a negative pressure air source. The suction cup 21 can be fixed or separated from the back plate 43 by controlling the negative pressure source, after the suction cup 21 is separated from the suction cup, the push rod of the hydraulic cylinder 18 can still keep connection with the positioning top box 17, the push rod of the hydraulic cylinder 18 is provided with a spline, and the reticular vent plate 19 of the positioning top box 17 is provided with a through hole matched with the spline.

A pressure plate 23 is fixedly arranged on the push rod of the hydraulic cylinder 18, and the suction cup 21 and the pressure plate 23 are respectively positioned at two sides of the top plate of the positioning top box 17. After the suction cup 21 is separated from the back plate 43, the push rod of the hydraulic cylinder 18 is moved downward, and downward pressure can be applied to the positioning top class by the platen 23.

A plurality of support rollers 24 are disposed between the two straight sections of the conveyor belt 12 to support the upper straight section of the conveyor belt 12.

Two sides of the first chain 14 are respectively provided with a guide rail adapted to the running track of the first chain 14, and the chain links of the first chain 14 are provided with guide blocks adapted to the guide rails. The guide blocks and guide rails are shown in the drawings, but this is a common way of maintaining the travel path of the chain.

As shown in fig. 1 and fig. 2, the gluing mechanism 3 includes two driving rollers 31 and a second chain 32 drawn between the two driving rollers 31, two bisectors of the second chain 32 are respectively provided with a gluing gun 33, a connecting line of the two driving rollers 31 is perpendicular to the running direction of the conveyor belt 12, the two driving rollers 31 are connected through a mounting frame, the driving rollers 31 are rotatably connected to the mounting frame, the top of the mounting frame is provided with a glue storage box 34 with an opening at the upper end, and a glue inlet pipe of the gluing gun 33 is inserted into the glue storage box 34.

One of the driving rollers 31 is driven by a servomotor 35, the housing of the servomotor 35 being fixed to the mounting frame.

As shown in fig. 6, 7 and 8, the aluminum honeycomb panel is composed of an aluminum frame 41, a back plate 43 and a honeycomb net rack 42, and is characterized in that the conveyor belt 12 and the first chain 14 are controlled to slowly run at a constant speed in the same speed and in the opposite direction, and the continuous production process of the aluminum honeycomb panel comprises the following steps: A. the positioning bottom boxes 16 are placed one by one at the inlet of the conveying belt 12; B. placing an aluminum frame 41 matched with the positioning bottom box 16; C. the gluing mechanism 3 evenly glues the bottom surface of the inner side of the aluminum frame 41; D. fixing the back plate 43 by the sucking disc 21, and adjusting the position of the back plate 43 to the aluminum frame 41 to be overlapped; E. controlling a back plate 43 positioned right above the glued aluminum frame 41 to be attached to the aluminum frame 41 through a hydraulic cylinder 18, so that the surface of the back plate 43 opposite to the bottom surface of the inner side of the aluminum frame 41 is adhered with bonding glue, and the bonding glue on the back plate 43 and the aluminum frame 41 is uniform after multiple operations; F. controlling the hydraulic cylinder 18 to move the back plate 43 upwards, placing the honeycomb net rack 42 in the aluminum frame 41, and ensuring the honeycomb net rack 42 to be flattened; G. the hydraulic cylinder 18 is controlled again to make the back plate 43 move downwards to the back plate 43, the honeycomb net rack 42 and the aluminum frame 41 to be mutually pressed and superposed; H. under the condition of keeping the back plate 43, the honeycomb net rack 42 and the aluminum frame 41 to be overlapped, air with certain pressure is blown into the air film 22, the air pressure is kept, and the suction cup 21 is separated from the connection with the back plate 43; I. when the aluminum frame 41 runs to the end of the conveyor belt 12, the back plate 43, the honeycomb net rack 42 and the aluminum frame 41 are compacted and compounded for the time required for curing the bonding glue, and the manufactured aluminum honeycomb is taken out from the end of the conveyor belt 12.

The technical problem that this scheme can be solved and the effect that can reach as follows:

the bonding glue is high-temperature-resistant glue with low fluidity, only a reticular glue network consisting of adhesive tapes can be formed by gluing the aluminum frame 41 through the gluing mechanism 3, the complete coverage on the aluminum frame 41 cannot be formed, the existence of the bonding glue cannot be ensured at all the contact positions of the honeycomb net rack 42 and the aluminum frame 41, and further, if the glue network is not flattened, the bonding strength of the honeycomb net rack 42 and the aluminum frame 41 is influenced; in addition, in the conventional process, the back plate 43 needs to be glued separately, and in the scheme, the back plate 43 is close to and attached to the glued aluminum frame 41, so that the back plate 43 and the aluminum frame 41 are flattened by the glue, and the back plate 43 can be glued.

The conveyor belt 12 runs slowly, can operate the placement of the aluminum frame 41, the installation of the back plate 43 and the leveling of the honeycomb net rack 42 on line, and can ensure the laminating to be compressed until the bonding glue is cured, thereby realizing the continuous operation on line.

Air with certain pressure is injected into a sealed cavity formed by the positioning bottom box 16, the positioning top box 17 and the air film 22, the air uniformly acts on the upper surface of the back plate 43 through the vent plate, uniform and stable pressure is applied to the back plate 43, and uniform pressing force among the back plate 43, the aluminum frame 41 and the honeycomb net rack 42 is ensured; because the positioning top box 17 has a certain longitudinal movable distance on the push rod of the hydraulic cylinder 18, the suction cup 21 can be separated from the back plate 43, the positioning top box 17 and the positioning bottom box 16 are sealed by the pressure of the hydraulic cylinder 18 at the moment, and the high-pressure air flow in the air film 22 is not enough to influence the sealing performance of the positioning top box and the positioning bottom box; in the traditional mode, a negative pressure mode is adopted to realize the lamination process, namely: utilize a vacuum bag to wrap up the backplate 43, aluminium frame 41 and the honeycomb rack 42 three of superpose, then carry out the evacuation to the vacuum bag, compress tightly the three through the negative pressure, can after the solidification of bonding glue, however, this kind of mode can cause the excessive condition of gluing of gap department of backplate 43 and aluminium frame 41, also can cause the condition that bonding glue flows in the small margin in the laminating cavity, still because of the production that the vacuum bag caused the substandard product is scratched easily to aluminium frame 41 edges and corners, consequently, the negative pressure mode is inferior to this scheme.

Beat gluey mechanism 3 and can beat gluey rifle 33 in-process continuous feed that removes, the bonding glue also conveniently adds.

This scheme working strength is little, online number is few, and a production line only needs two people, goes up aluminium frame 41 for one, and another settles backplate 43, and synchronous transfer chain is located panel transfer chain top, and is also reasonable relatively to the utilization in workshop space.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Claims (8)

1. The continuous production line of the aluminum honeycomb plates is characterized by comprising a plate conveying line and a synchronous conveying line located right above the plate conveying line, wherein a plurality of plate pressing mechanisms (1) are arranged between the plate conveying line and the synchronous conveying line, a gluing mechanism (3) is arranged at an inlet of the plate conveying line, the plate conveying line comprises two first traction wheels (11) and a conveying belt (12) located between the two first traction wheels (11), the synchronous conveying line comprises two second traction wheels (13) and a first chain (14) located between the two second traction wheels (13), positioning openings (15) which correspond to the plate pressing mechanisms (1) one by one are equidistantly arranged on the conveying belt (12), each plate pressing mechanism (1) comprises a positioning bottom box (16), a positioning top box (17) and a hydraulic cylinder (18), and the outer edge of the positioning bottom box (16) is located, The outer edges of the positioning top boxes (17) are respectively provided with a sealing step, the top surfaces of the positioning top boxes (17) are provided with a net-shaped vent plate (19), cylinder bodies of hydraulic cylinders (18) are fixed on chain links of a first chain (14), a suction disc (21) is arranged on a push rod of the hydraulic cylinder (18), the push rod of the hydraulic cylinder (18) penetrates through the top surfaces of the positioning top boxes (17), the tops of the positioning top boxes (17) are provided with flexible air films (22), the positioning bottom boxes (16), the positioning top boxes (17) and the air films (22) can form a closed cavity, the air films (22) are provided with air connecting pipes, and the air connecting pipes are connected with air outlet ends of an air pump.

2. The continuous production line of aluminum honeycomb panels as claimed in claim 1, wherein the contact surfaces of the two sealing steps are provided with sealing strips.

3. An aluminum honeycomb panel continuous production line according to claim 2, characterized in that the push rod of the hydraulic cylinder (18) is provided with an air passage therein, one end of the air passage is communicated with the suction cup (21), and the other end of the air passage is communicated with a negative pressure air source.

4. An aluminum honeycomb panel continuous production line according to claim 3, characterized in that a pressing plate (23) is fixedly arranged on the push rod of the hydraulic cylinder (18), and the suction cups (21) and the pressing plate (23) are respectively positioned at two sides of the top plate of the positioning top box (17).

5. An aluminium honeycomb panel continuous production line according to claim 1 or 2 or 3 or 4, characterized in that between two straight sections of the conveyor belt (12) there are arranged several support rollers (24) supporting the upper straight section of the conveyor belt (12).

6. An aluminium honeycomb panel continuous production line according to claim 1 or 2 or 3 or 4, characterized in that, a guide rail adapted to the running track of the first chain (14) is respectively arranged at two sides of the first chain (14), and guide blocks adapted to the guide rail are arranged on the chain links of the first chain (14).

7. The continuous production line of the aluminum honeycomb plates as claimed in claim 1, 2, 3 or 4, wherein the glue applying mechanism (3) comprises two driving rollers (31) and a second chain (32) drawn between the two driving rollers (31), two bisectors of the second chain (32) are respectively provided with a glue applying gun (33), the connecting line of the two driving rollers (31) is perpendicular to the running direction of the conveying belt (12), the two driving rollers (31) are connected through a mounting frame, the driving rollers (31) are rotatably connected onto the mounting frame, the top of the mounting frame is provided with a glue storage box (34) with an upper end opening, and a glue inlet pipe of the glue applying gun (33) is inserted into the glue storage box (34).

8. An aluminium honeycomb panel continuous production line according to claim 7, characterized in that one of the driving rollers (31) is driven by a servo motor (35), the housing of the servo motor (35) being fixed to a mounting frame.

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