CN214229814U - Food forming die assembly - Google Patents

Abstract

The utility model discloses a fashioned mould subassembly of food, including the base, base sliding connection has two modules, and the holding tank has been seted up towards the side of another module to one of them module, and the terminal surface that the base was kept away from to holding tank and module is linked together, is provided with the driving piece that the two of drive is close to each other or keeps away from between two modules, and the holding tank of two modules forms mold core chamber groove, and the base is provided with the liftout piece towards the terminal surface activity of module, and the end that stretches out of liftout piece lies in between two modules and sets up towards mold core chamber inslot. Through adopting above-mentioned setting, have and to be convenient for take out food from the mould to reach the effect that improves production efficiency and practice thrift the cost.

Description

Food forming die assembly

Technical Field

The utility model relates to a technical field of mould structure, concretely relates to fashioned mould assembly of food.

Background

Food processing has gradually approached to automatic production, and for some food products, such as cakes, biscuits, candies and the like, in the transmission process of an assembly line, molds are subjected to processes of preheating, feeding, heating, forming, cooling and discharging. Wherein at the in-process of ejection of compact, and can also take out fashioned food in the mould through artifical mode through the manipulator, because food is located the mould, can bond the inner wall at the mould because the temperature is too high occasionally, and difficult to take out, take out the speed of shaping food in the mould when adapting to the ejection of compact, the production beat of whole production line also correspondingly slows down, or need arrange a plurality of manual works or be equipped with many manipulators in the ejection of compact position that becomes the production line to promote whole efficiency, but this also means the increase of artifical manufacturing cost.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide a food forming die assembly, which is convenient for taking out food from a die, thereby improving the production efficiency and saving the cost.

The purpose of the utility model is realized through the following technical scheme:

the utility model provides a fashioned mould subassembly of food, includes the base, base sliding connection has two modules, one of which the module is towards another the holding tank has been seted up to the side of module, the holding tank with the module is kept away from the terminal surface of base is linked together, two be provided with the driving piece that the two of drive is close to each other or keeps away from between the module, two the holding tank of module forms mold core chamber groove, the base orientation the terminal surface activity of module is provided with ejecting, the end that stretches out of ejecting is located two between the module and towards mold core chamber inslot sets up.

Further, the end face of the module facing the base is provided with a sliding groove, the sliding groove extends in the direction away from the other module, the sliding groove is not communicated with the side face of the module, the end face of the base facing the module is fixedly connected with a sliding block, and the sliding block is connected with the sliding groove in a sliding mode.

Furthermore, a sinking groove is formed in the side face, facing the other module, of each module, each driving piece comprises a first spring, one end of each first spring is fixedly connected with the inner bottom face of the sinking groove of one module, the other end of each first spring is fixedly connected with the inner bottom face of the sinking groove of the other module, two ends of each first spring are connected with a conducting wire connected with a circuit, a through hole for the conducting wire to pass through is formed in the side face of each module, and the through holes are communicated with the sinking grooves.

Further, the first spring is inserted with a telescopic rod, the telescopic rod comprises a fixed rod and a connecting pipe, the fixed rod is inserted with the connecting pipe, one end of the fixed rod, far away from the connecting pipe, is fixedly connected with the bottom surface of one module in the sinking groove, and one end of the connecting pipe, far away from the fixed rod, is fixedly connected with the bottom surface of the other module in the sinking groove.

Further, the accommodating groove is communicated with a limiting groove close to the inner bottom surface of the base, the limiting groove is communicated with the side surface of the module facing to the other module, the inner side surface of the limiting groove far away from the other module is in an inclined surface arrangement, the inclined surface of the limiting groove is inclined towards the base, the two limiting grooves of the two modules are opposite to each other to form a limiting groove, the ejecting part comprises a limiting block, the limiting block is spliced with the limiting groove, the limiting block is horizontally arranged towards the side surface of the module in an inclined surface arrangement, the inclined surface of the limiting block is parallel to the inclined surface adjacent to the limiting groove, the inclined surface of the limiting block is abutted against the inclined surface of the limiting groove, a groove is formed in the end surface of the base facing to the module, a second spring is arranged in the groove, and one end of the second spring is fixedly connected with the inner bottom surface of the groove, the other end of the second spring is fixedly connected with the end face, facing the base, of the limiting block.

Further, the second spring is inserted with a guide rod, the guide rod comprises a movable pipe inserted with a straight rod, a limiting ring is arranged at the edge of one end of the movable pipe in an inward protruding mode, a butting ring is arranged at the end, located in the movable pipe, of the straight rod in an outward protruding mode, one end, far away from the limiting ring, of the movable pipe is fixedly connected with the limiting block, and one end, far away from the butting ring, of the straight rod is fixedly connected with the inner bottom face of the groove.

Further, when the two modules are combined with each other, the end face of the limiting block, far away from the base, is coplanar with the inner bottom face of the mold core cavity groove, facing towards the base, a supporting plate is fixedly connected to the end face of the limiting block, far away from the second spring, and the plane size of the supporting plate is consistent with the size of the inner bottom face, close to the mold core cavity groove, of the base.

Furthermore, the two modules are provided with extrusion plates far away from the end face of the base, the extrusion plates cover the two module arrangements, and the end faces of the extrusion plates far away from the modules are fixedly connected with connecting rods for connecting automation equipment.

Furthermore, an overflow groove is formed in the end face, far away from the base, of the module, the overflow groove is communicated with the outer side face of the module and the accommodating groove, a bearing block is fixedly connected to the outer peripheral face of the base, a bearing groove is formed in the end face, facing the module, of the bearing block, and the bearing groove is opposite to the outer side face of the module.

The utility model discloses following beneficial effect has:

a food forming mold assembly is characterized in that two modules are arranged on a base, and accommodating grooves of the two modules form a mold core cavity groove so as to facilitate the inward placement of food forming raw materials, and the food forming raw materials are formed by heating of a production line and the mold core cavity groove formed by combining the two modules; the driving part is arranged between the two modules, so that the two modules can be close to or far away from each other, and when the two modules are far away from each other, the formed food in the mold core cavity groove can be separated from the inner wall of the mold gun groove, so that the condition that the formed food is adhered to the inner wall of the mold core cavity groove is favorably reduced, and the formed food can be taken out conveniently; in addition, through setting up the liftout piece at the base, and because the liftout piece is located between two modules and sets up towards mold core chamber inslot, when making two module alternate segregation under the drive effect of driving piece, can utilize the liftout piece to promote the direction of moulded food orientation keeping away from the base ejecting, thereby make the moulded food part stretch out the model chamber inslot, and then be convenient for the staff more and from taking out moulded food, make easy and simple to handle, and can improve the generation efficiency effectively, can reduce the interpolation of staff or manipulator simultaneously, the effect that has reduction production and processing cost.

Drawings

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

Fig. 2 is an exploded view of the present invention.

Fig. 3 is a schematic diagram of the module structure of the present invention.

Fig. 4 is a sectional view of the present invention.

Fig. 5 is a partial enlarged view of a portion a in fig. 4.

Fig. 6 is a cross-sectional view of another perspective of the present invention.

Fig. 7 is a partial enlarged view of fig. 6 at B.

In the figure: 1. a base; 11. a groove; 13. a guide bar; 14. a movable tube; 141. a limiting ring; 15. a straight rod; 151. a butting ring; 16. a bearing block; 161. a receiving groove; 17. a slider; 2. a module; 21. a chute; 22. a limiting groove; 221. a limiting groove; 23. a mold core cavity groove; 231. accommodating grooves; 24. sinking a groove; 25. a through hole; 26. an electrical connector; 27. an overflow trough; 3. a drive member; 31. a first spring; 32. a telescopic rod; 321. A connecting pipe; 322. fixing the rod; 4. ejecting the part; 41. a second spring; 42. a limiting block; 43. a support plate; 5. a pressing plate; 51. a connecting rod.

Detailed Description

The present invention will be described in further detail with reference to the following drawings and specific embodiments. In the present specification, the terms "upper", "inner", "middle", "left", "right" and "one" are used for convenience of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the corresponding parts may be changed or adjusted without substantial technical changes.

Referring to fig. 1 to 3, a fashioned mould subassembly of food, including being rectangular-like base 1, base 1 its one plane sliding connection has two modules 2, two sliders 17 distribute in base 1 length direction's both sides, holding tank 231 has been seted up towards the side of another module 2 to one of them module 2, holding tank 231 is linked together with the terminal surface that base 1 was kept away from to module 2, be provided with the driving piece 3 that the drive two is close to each other or keeps away from between two modules 2, holding tank 231 of two modules 2 forms mold core chamber groove 23, the mold cavity groove is on a parallel with the planar transversal oval-like setting of personally submitting of base 1, base 1 is provided with ejecting 4 towards the terminal surface activity of module 2, the end that stretches out of ejecting 4 lies in between two modules 2 and sets up towards mold core chamber groove 23.

It is worth proposing that the number of driving pieces 3 is two in this embodiment, and two driving pieces 3 are listed in the both sides of mold core cavity groove 23 respectively, can make the drive effect steady, and module 2 sliding motion is smooth and easy in the meantime, reduces the dead condition of card that appears because the atress is uneven.

Specifically, two modules 2 are arranged on the base 1, and the accommodating grooves 231 of the two modules 2 form a mold core cavity groove 23 so as to facilitate the inward placement of food forming raw materials, and the food forming raw materials are formed by heating in a production line and combining the two modules 2 to form the mold core cavity groove 23; the driving part 3 is arranged between the two modules 2, so that the two modules 2 can be close to or far away from each other, when the two modules 2 are far away from each other, the formed food in the mold core cavity groove 23 can be separated from the inner wall of the mold gun groove, the condition that the formed food is adhered to the inner wall of the mold core cavity groove 23 can be reduced, and the formed food can be taken out conveniently; in addition, through setting up ejecting 4 at base 1, and because ejecting 4 is located between two modules 2 and sets up towards mold core chamber groove 23, when making two modules 2 alternate segregation under the drive of driving piece 3, can utilize ejecting 4 to promote the direction of moulded food orientation keeping away from base 1 ejecting, thereby make the moulded food part stretch out the model chamber inslot, and then be convenient for the staff from taking out the moulded food more, make easy and simple to handle, and can improve the generation efficiency effectively, can reduce the interpolation of staff or manipulator simultaneously, have the effect of reduction production and processing cost.

Referring to fig. 1 to 7, in order to realize the function of sliding the module 2 on the base 1, it is possible to reduce the possibility that the module 2 is separated from the base 1 due to excessive sliding. Module 2 has seted up spout 21 towards the terminal surface of base 1, and spout 21 is rectangular form, and spout 21 extends along the direction of keeping away from another module 2 towards, and spout 21 does not communicate with the side of module 2, and base 1 is towards the terminal surface fixed connection slider 17 of module 2, slider 17 and spout 21 sliding connection.

In order to achieve the function of the driving member 3 to drive the two sliders 17 to slide. Module 2 has seted up heavy groove 24 towards the side of another module 2, driving piece 3 includes first spring 31, the bottom surface fixed connection in the heavy groove 24 of one of them module 2 of one end of first spring 31, the other end of first spring 31 and the heavy groove 24 of another module 2 bottom surface fixed connection, the both ends of first spring 31 all are connected with the line of conducting (not shown in the figure) with circuit connection, the through-hole 25 that supplies the line of conducting to pass is seted up to the side of module 2, through-hole 25 communicates with in the heavy groove 24, through-hole 25 threaded connection has electrical connector 26, the end that first spring 31 was kept away from to the line of conducting is connected with electrical connector 26.

Specifically, by providing the sinking groove 24 for the first spring 31 to be put into in the module 2, the first spring 31 can be completely accommodated in the sinking groove 24 when the food raw materials are heated and molded, so that the two modules 2 are tightly abutted to each other, and the leakage of the finished food raw materials from the gap between the two modules 2 is reduced. In addition, by arranging the first spring 31, the conducting wires at the two ends of the first spring 31 penetrate through the through hole 25 and then are connected with the electric connector 26, so that a circuit connected with the circuit board is directly plugged and conducted with the electric connector 26 from the outside, current in the same direction is transmitted to the same first spring 31, the first spring 31 is prompted to contract according to the electromagnetic principle, and the two modules 2 are pulled to be combined; conversely, when the current transmission to the first spring 31 is stopped, the two modules 2 are urged away from each other due to the return action of the first spring 31.

Referring to fig. 1 to 7, in order to improve the smoothness and guidance of the telescopic motion of the first spring 31, the first spring 31 is less bent to reduce the telescopic motion effect. The first spring 31 is inserted with the expansion link 32, the expansion link 32 includes a fixing rod 322 and a connecting pipe 321, the fixing rod 322 is inserted with the connecting pipe 321, the length of the first spring 31 in a natural state is smaller than the total length of the fixing rod 322 and the connecting pipe 321, one end of the fixing rod 322 far away from the connecting pipe 321 is fixedly connected with the inner bottom surface of the sinking groove 24 of one module 2, and one end of the connecting pipe 321 far away from the fixing rod 322 is fixedly connected with the inner bottom surface of the sinking groove 24 of the other module 2.

In order to achieve the function of the ejector 4 of ejecting the molded food part inside the core cavity 23 out of the core cavity 23 via its ejection end. The inner bottom surface that holding tank 231 is close to base 1 link up limited groove 221, limited groove 221 is linked together with the side of another module 2 of module 2 orientation, the inboard that limited groove 221 is far away from another module 2 is personally submitted the inclined plane and is set up, the inclined plane slope of limited groove 221 sets up towards base 1, the inclined plane of limited groove 221 and holding tank 231 are close to between the inslot wall of base 1 and are the acute angle, two limited grooves 221 of two modules 2 are just to each other forming spacing groove 22, the transversal isosceles trapezoid-like setting of personally submitting of spacing groove 22. Ejector piece 4 includes stopper 42, stopper 42 is pegged graft with spacing groove 22, stopper 42 level is the inclined plane setting towards the side of module 2, the inclined plane of stopper 42 and the inclined plane of adjacent restriction groove 221 are parallel to each other and set up, and stopper 42's inclined plane and the mutual butt of inclined plane of restriction groove 221, base 1 has seted up recess 11 towards the terminal surface of module 2, be provided with second spring 41 in the recess 11, bottom surface fixed connection in second spring 41's the one end and the recess 11, second spring 41's the other end and stopper 42 are towards the terminal surface fixed connection of base 1.

Specifically, the two modules 2 are provided with the limiting groove 221 to form the limiting groove 22, and the second spring 41 and the limiting block 42 are provided at the same time, so that the limiting block 42 is abutted against the inner wall of the limiting groove 22 side by the reset action of the second spring 41, since the inclined surfaces of the stoppers 42 and the inclined surfaces of the restriction grooves 221 are parallel to each other, in the process of moving the two modules 2 away from each other, because the inclined plane of the limiting groove 221 is inclined towards the base 1 and the included angle between the inclined plane of the limiting groove 221 and the inner wall of the containing groove 231 close to the base 1 is an acute angle, the lower bottom of the isosceles trapezoid formed by the cross section of the limiting groove 22 is close to one side of the base 1, so when the two modules 2 are forced to move away from each other in a sliding manner, under the urging action of the second spring 41, the stopper 42 is urged toward the inside of the core cavity groove 23 and urges the molded food piece portion to project out of the core cavity groove 23.

Referring to fig. 1 to 7, in order to improve the guidance of the telescopic motion of the second spring 41 and reduce the situation that the position of the limiting block 42 is difficult to reset because the limiting block 42 is completely located in the mold core cavity groove 23 due to the excessive sliding distance of the two mold blocks 2 when the two mold blocks are far away from each other, the moving distance of the limiting block 42 is limited. The second spring 41 is inserted with the guide rod 13, the guide rod 13 comprises a movable tube 14 inserted with a straight rod 15, one end edge of the movable tube 14 is inwards protruded with a limiting ring 141, one end of the straight rod 15, which is located in the movable tube 14, is outwards protruded with a butting ring 151, one end of the movable tube 14, which is far away from the limiting ring 141, is fixedly connected with the limiting block 42, and one end of the straight rod 15, which is far away from the butting ring 151, is fixedly connected with the inner bottom surface of the groove 11.

Specifically, the guide rod 13 is inserted and arranged through the second spring 41, which is beneficial to improving the guidance of the telescopic motion of the second spring 41. In addition, by arranging the limit ring 141 and the abutting ring 151, since the abutting ring 151 is located in the movable tube 14 and located between the limit block 42 and the limit ring 141, when the limit block 42 excessively extends into the groove of the mold cavity, the abutting ring 151 abuts against the limit ring 141, so that the movement of the limit block 42 is limited.

In order to reduce the impact force which is too large to break the formed food product when the stopper 42 extends into the mold core cavity groove 23. When the two modules 2 are combined with each other, the end face of the limiting block 42 far away from the base 1 and the inner bottom face of the mold core cavity groove 23 facing the base 1 are arranged in a coplanar manner, the end face of the limiting block 42 far away from the second spring 41 is fixedly connected with a supporting plate 43, and the plane size of the supporting plate 43 is consistent with the size of the inner bottom face of the base 1 close to the mold core cavity groove 23. Specifically, by arranging the supporting plate 43 with the plane size consistent with the size of the inner bottom surface of the base 1 close to the mold core cavity groove 23, the supporting plate 43 is completely separated from the bottom surface of the formed food, and under the driving action of the ejecting piece 4, when the limiting block 42 is enabled to extend into the mold cavity groove, the supporting plate 43 is directly contacted with the formed food, so that the impact force is relatively uniformly distributed on the bottom surface of the formed food, and the situation that the formed food is damaged by impact is favorably reduced.

Referring to fig. 1 to 7, in order to further stabilize the outer shape of the molded food product and reduce the presence of bubbles inside the food product. Two modules 2 keep away from base 1 terminal surface and are provided with stripper plate 5, and stripper plate 5 covers two module 2 settings, and stripper plate 5 keeps away from the terminal surface fixedly connected with of module 2 and supplies the connecting rod 51 that the automation equipment is connected. Through setting up the connecting rod 51 of being connected with automated apparatus, utilize connecting rod 51 to connect installation and two squeeze board 5 of model chamber groove looks adaptation between 2 modules, when the production line drives overall structure and moves to squeeze board 5 under, utilize automated apparatus to drive connecting rod 51 and squeeze board 5 and extrude the shaping food raw materials in the mold core chamber groove 23 of two modules 2 to in order to accelerate food shaping, can extrude the bubble in the raw materials simultaneously.

Because the raw materials for forming food are usually fixed flexibly, such as powder dough, syrup and the like, and also contain liquid, such as potato water, gelatin gel and the like, when more raw materials are put into the cavity groove 23 of the mold core, the raw materials are far away from the mold block 2 under the extrusion action of the extrusion plate 5, so that the raw materials are leaked and wasted. In order to reduce the waste of overflowing and leaking raw materials and simultaneously pollute mechanical equipment. The end face, far away from the base 1, of the module 2 is provided with an overflow groove 27, the overflow groove 27 is communicated with the outer side face of the module 2 and the accommodating groove 231, the outer peripheral face of the base 1 is fixedly connected with a bearing block 16, the end face, facing the module 2, of the bearing block 16 is provided with a bearing groove 161, and the bearing groove 161 is opposite to the outer side face of the module 2.

When the die assembly is used in combination with automatic food production equipment, the extrusion plate 5 is firstly installed on the extrusion equipment of the production equipment, then the die assembly is installed on a production line, and meanwhile, the circuit of a power supply circuit on the production line is connected with the electric connector 26 and the circulation condition of the circuit is controlled through the circuit board. And moving the die assembly to preheating equipment by using a production line to perform integral preheating. The mould is then transported to a delivery device, the circuit board being energised to cause the two modules 2 to merge and the delivery device simultaneously delivers the food material into the mould core cavity 23. And then, conveying the die assembly to an extrusion device to enable the die core cavity groove 23 to be opposite to the extrusion plate 5, and driving the extrusion plate 5 to extrude the food raw materials in the die core cavity groove 23 by using the extrusion device to accelerate the forming of the raw materials. And then, conveying the mould assembly to the position of the forming equipment through the production line, and baking or condensing and forming the food raw materials for fixing. And then the mold assembly is conveyed to a cooling device to be integrally cooled, and finally the mold assembly is conveyed to a discharging area, the circuit board is powered off, the two modules 2 are separated from each other, and meanwhile, the limiting block 42 pushes the food part out of the mold core cavity groove 23 under the reset action of the second spring 41, so that a worker or a mechanical arm can take out the food part, and the beneficial effect of improving the working efficiency is achieved.

The embodiment of the present invention is not limited to this, according to the above-mentioned content of the present invention, the common technical knowledge and the conventional means in the field are utilized, without departing from the basic technical idea of the present invention, the present invention can also make other modifications, replacements or combinations in various forms, all falling within the protection scope of the present invention.

Claims (9)

1. A food shaping's mould subassembly which characterized in that: the base is connected with two modules in a sliding mode, one of the two modules faces the other module, a containing groove is formed in the side face of the module, the containing groove is communicated with the end face of the base, two driving pieces for driving the two modules to be close to or away from each other are arranged between the two modules, the containing groove of the module forms a mold core cavity groove, the base faces towards the end face of the module is movably provided with an ejection piece, and the extending end of the ejection piece is located between the two modules and faces towards the interior of the mold core cavity groove.

2. The food forming die assembly of claim 1, wherein: the module orientation the terminal surface of base has seted up the spout, the spout is along keeping away from another along the orientation the direction of module extends, the spout with the side of module does not communicate, the base orientation the terminal surface fixed connection slider of module, the slider with spout sliding connection.

3. The food forming die assembly of claim 1, wherein: the module is towards another the heavy groove has been seted up to the side of module, the driving piece includes first spring, the one end of first spring and one of them the heavy inslot bottom surface fixed connection of module, the other end of first spring and another the heavy inslot bottom surface fixed connection of module, the both ends of first spring all are connected with the line that switches on with circuit connection, the side of module is seted up the confession the through-hole that the line passed switches on, the through-hole with the heavy inslot communicates.

4. A food forming die assembly as claimed in claim 3, wherein: the first spring is inserted with a telescopic rod, the telescopic rod comprises a fixed rod and a connecting pipe, the fixed rod is inserted with the connecting pipe, one end, far away from the connecting pipe, of the fixed rod is fixedly connected with the bottom surface of one module in the sinking groove, and one end, far away from the fixed rod, of the connecting pipe is fixedly connected with the bottom surface of the other module in the sinking groove.

5. The food forming die assembly of claim 1, wherein: the accommodating groove is communicated with a limiting groove close to the inner bottom surface of the base, the limiting groove is communicated with the side surface of the module facing to the other module, the inner side surface of the limiting groove far from the other module is in an inclined surface arrangement, the inclined surface of the limiting groove inclines towards the base, the two limiting grooves of the two modules are opposite to each other to form a limiting groove, the ejecting part comprises a limiting block, the limiting block is spliced with the limiting groove, the limiting block is horizontally arranged towards the side surface of the module in an inclined surface arrangement, the inclined surface of the limiting block is parallel to the inclined surface of the adjacent limiting groove, the inclined surface of the limiting block is abutted against the inclined surface of the limiting groove, the base is provided with a groove facing to the end surface of the module, a second spring is arranged in the groove, and one end of the second spring is fixedly connected with the inner bottom surface of the groove, the other end of the second spring is fixedly connected with the end face, facing the base, of the limiting block.

6. The food forming die assembly of claim 5, wherein: the second spring is inserted with a guide rod, the guide rod comprises a movable pipe inserted with a straight rod, a limiting ring is arranged at the edge of one end of the movable pipe in an inward protruding mode, a butting ring is arranged at the end, located in the movable pipe, of the straight rod in an outward protruding mode, one end, far away from the limiting ring, of the movable pipe is fixedly connected with the limiting block, and one end, far away from the butting ring, of the straight rod is fixedly connected with the inner bottom face of the groove.

7. The food forming die assembly of claim 5, wherein: when two when the module merges each other, the stopper is kept away from the terminal surface of base with mold core chamber groove orientation the interior bottom surface coplane setting of base, the stopper is kept away from the terminal surface fixedly connected with backup pad of second spring, backup pad plane size with mold core chamber groove is close to the interior bottom surface size of base is unanimous.

8. The food forming die assembly of claim 1, wherein: the two modules are far away from the base end face is provided with two extrusion plates, the two extrusion plates cover the two module arrangements, and the end face of each module far away from the extrusion plate is fixedly connected with a connecting rod for connecting automation equipment.

9. The food forming die assembly of claim 8, wherein: the end face, far away from the base, of the module is provided with an overflow groove, the overflow groove is communicated with the outer side face and the accommodating groove of the module, the outer peripheral face of the base is fixedly connected with a bearing block, the end face, facing the module, of the bearing block is provided with a bearing groove, and the bearing groove is opposite to the outer side face of the module.

Images