CN219536447U - Copper foil-mirror plate-copper foil feeding and stacking equipment - Google Patents

Abstract

The utility model relates to the field of PCB production equipment, in particular to copper foil-mirror plate-copper foil feeding and stacking equipment, wherein a mirror plate storage position is used for storing a whole stack of mirror plates, and a mirror plate transfer mechanism is used for transferring the mirror plate on one of the mirror plate storage positions to a mirror plate discharge mechanism; the first copper foil storage position is used for storing the copper foil of the whole stack, and the first copper foil transfer mechanism is used for transferring the copper foil on one of the first copper foil storage positions to the mirror plate receiving mechanism and stacking the copper foil above the mirror plate to form a copper foil-mirror plate laminated structure; the second copper foil storage position is used for storing the copper foil of the whole stack, the switching platform comprises a high receiving table and a low receiving table, and the transferring and stacking device is used for transferring the copper foil-mirror plate stacking structure on the mirror plate receiving mechanism to the receiving table positioned at the stacking position and stacking the copper foil above the copper foil to form the copper foil-mirror plate-copper foil stacking structure. The automatic feeding device can reduce the shutdown caused by feeding and also can reduce frequent feeding of workers to equipment.

Description

Copper foil-mirror plate-copper foil feeding and stacking equipment

Technical Field

The utility model relates to the field of PCB production equipment, in particular to copper foil-mirror plate-copper foil feeding and stacking equipment.

Background

In the PCB production process, materials are required to be overlapped, and then the overlapped materials are fed into hot-pressing equipment and hot-pressed to obtain the PCB laminated board.

The PCB laminate includes an inner layer board and copper foils adhered to upper and lower surfaces of the inner layer board via prepregs. In order to achieve the above structure, a structure of copper foil-prepreg-inner layer board-prepreg-copper foil (hereinafter referred to as a lamination-before-lamination structure) needs to be laminated before hot pressing, and meanwhile, hot pressing of a PCB laminate is generally performed simultaneously, that is, a plurality of groups of lamination-before-lamination structures exist in a stack of materials, at this time, in order to separate each group of lamination-before-lamination structures, a mirror plate needs to be placed between adjacent lamination-before-lamination structures, that is, a lamination-before-lamination structure is sandwiched between two mirror plates, so that four materials of an inner layer board, a prepreg, a copper foil and a mirror plate need to be fed before lamination of the PCB laminate, and lamination is required in order. Therefore, in the prior art, the lamination is performed by separating two parts, one part is laminated to form a copper foil-mirror plate-copper foil structure, the other part is laminated to form a prepreg-inner layer plate-prepreg structure, and then the two structures are laminated in sequence, so that a stack of materials before lamination is obtained.

For the lamination of copper foil, mirror plate and copper foil, the applicant has designed a copper foil sandwich structure lamination device as disclosed in Chinese utility model CN213213975U, but the applicant has found that when using the device, the structural layout of the device can only place one stack of materials at each storage position of the device, when the materials at the storage position are taken out, the stop and the feeding are needed, the production line needs to be stopped frequently, the normal operation of the production is influenced, and the staff also needs to go to the device for feeding at high frequency, so that the working intensity is high.

Disclosure of Invention

The utility model aims to provide copper foil-mirror plate-copper foil feeding and stacking equipment, and aims to solve the problems in the prior art.

In order to achieve the above purpose, the utility model provides copper foil-mirror plate-copper foil feeding and stacking equipment, which comprises a mirror plate storage and feeding device, a first copper foil storage and feeding device, a second copper foil storage and feeding device and a transfer and stacking device; the mirror plate storage and feeding device comprises a mirror plate transfer mechanism, a mirror plate discharging mechanism and two mirror plate storage levels, wherein the mirror plate storage levels are used for storing a whole stack of mirror plates, and the mirror plate transfer mechanism is used for transferring the mirror plate on one of the mirror plate storage levels to the mirror plate discharging mechanism; the first copper foil storage and feeding device comprises a first copper foil transfer mechanism, a mirror plate receiving mechanism and two first copper foil storage positions, wherein the first copper foil storage positions are used for storing a whole stack of copper foil, the mirror plate receiving mechanism is in butt joint with the mirror plate discharging mechanism and receives a mirror plate sent from the mirror plate discharging mechanism, and the first copper foil transfer mechanism is used for transferring copper foil on one of the first copper foil storage positions to the mirror plate receiving mechanism and overlapping the copper foil on the upper side of the mirror plate to form a copper foil-mirror plate laminated structure; the second copper foil storage feeding device comprises a second copper foil transfer mechanism, a switching platform and a second copper foil storage position, wherein the second copper foil storage position is used for storing a whole stack of copper foil, the switching platform comprises a high receiving platform and a low receiving platform, the switching platform is provided with a receiving position and a stacking position, the two receiving platforms can horizontally move to the receiving position and the stacking position, the second copper foil transfer mechanism is used for transferring the copper foil on the second copper foil storage position to the receiving platform positioned at the receiving position, and the receiving platform transfers the copper foil to the stacking position; the transferring and stacking device is used for transferring the copper foil-mirror plate stacking structure on the mirror plate receiving mechanism to a receiving table positioned at a stacking position and stacking the copper foil above the receiving table to form the copper foil-mirror plate-copper foil stacking structure.

Further, the mirror plate discharging mechanism, the mirror plate receiving mechanism and the stacking position are arranged transversely, the mirror plate discharging mechanism and the two mirror plate storing positions are arranged longitudinally, the mirror plate receiving mechanism and the two first copper foil storing positions are arranged longitudinally, and the second copper foil storing position, the receiving position and the stacking position are arranged longitudinally.

Further, the transferring and stacking device comprises a first picking and placing mechanism and a second picking and placing mechanism which can translate and lift, the first picking and placing mechanism and the second picking and placing mechanism are transversely arranged and synchronously move, and when the first picking and placing mechanism picks up the copper foil-mirror plate laminating structure from the mirror plate receiving mechanism, the second picking and placing mechanism picks up the copper foil-mirror plate-copper foil laminating structure from a receiving table positioned at a stacking position.

Further, the first picking and placing mechanism comprises two groups of first L-shaped picking and placing claws which are oppositely arranged along the longitudinal direction, and the two groups of first L-shaped picking and placing claws are close to and far away from each other so as to pick and place materials; the second picking and placing mechanism comprises two groups of second L-shaped picking and placing claws which are arranged oppositely in the transverse direction, and the two groups of second L-shaped picking and placing claws are close to and far away from each other so as to pick and place materials.

Further, the mirror plate discharging mechanism is a roller type discharging mechanism, and the mirror plate receiving mechanism is a roller type receiving mechanism.

Further, a lifting conveying table is further arranged between the mirror plate discharging mechanism and the mirror plate receiving mechanism, the lifting conveying table is a roller type conveying table, and a conveying plane of the lifting conveying table can be lifted to butt the mirror plate discharging mechanism and the mirror plate receiving mechanism.

Further, the mirror plate storage level can be raised and lowered, and the mirror plate transfer mechanism can be longitudinally translated and raised and lowered.

Further, the first copper foil storage level can be lifted, and the first copper foil transfer mechanism can be longitudinally translated and lifted.

Further, the first copper foil storage level can be lifted, and the second copper foil transfer mechanism can be longitudinally translated and lifted.

Further, the second copper foil storage and feeding device comprises two second copper foil storage positions.

Compared with the prior art, the copper foil-mirror plate-copper foil feeding and stacking equipment provided by the utility model changes the position layout and stacking direction of each feeding device, so that each feeding device can have enough space to set more storage positions, and workers can put more materials into the equipment at one time, thereby reducing the times of reciprocating equipment and reducing the labor intensity of the workers; in addition, after the materials on one storage level are taken out, the part of the transfer mechanism can take another stack of materials from the other storage level immediately, so that the shutdown frequency of the equipment is reduced, and the production efficiency is improved; furthermore, after the layout is changed, the utility model also provides a switching platform in the second copper foil storage and feeding device, and the addition of the switching platform can ensure that the production rhythm of the equipment is not slowed down.

Drawings

FIG. 1 is a perspective view of a copper foil-mirror plate-copper foil loading and stacking apparatus of the present utility model;

FIG. 2 is a top view of the copper foil-mirror plate-copper foil loading and stacking apparatus of the present utility model;

FIG. 3 is a front view of a copper foil-mirror plate-copper foil loading and stacking apparatus of the present utility model

FIG. 4 is an enlarged view of part of A in FIG. 3;

FIG. 5 is a perspective view of a mirror plate storage and loading device;

FIG. 6 is a perspective view of the elevating conveyor;

fig. 7 is a perspective view of a first copper foil storage and feeding device;

fig. 8 is a perspective view of a second copper foil storage and feeding device.

Reference numerals illustrate:

1. mirror plate storage and feeding device; 11. a mirror plate transfer mechanism; 12. a mirror plate discharging mechanism; 13. a mirror plate stores material level;

2. the first copper foil storage and feeding device; 21. a first copper foil transfer mechanism; 22. a mirror plate receiving mechanism; 23. a first copper foil storage location;

3. the second copper foil storage and feeding device; 31. a second copper foil transfer mechanism; 32. a switching platform; 321. a receiving table; 322. receiving a material level; 323. stacking material levels; 33. a second copper foil storage location;

4. transferring and stacking the material device; 41. a first pick-and-place mechanism; 411. a first L-shaped pick-and-place claw; 42. a second picking and placing mechanism; 421. a second L-shaped picking and placing claw;

5. lifting the conveying table.

Detailed Description

The present utility model will be described in detail with reference to specific examples.

In the present utility model, unless explicitly stated and limited otherwise, when terminology such as "disposed," "connected," or "connected" is intended to be interpreted broadly, such as, for example, a fixed connection, a removable connection, or an integral connection; may be directly connected or connected through one or more intermediaries. The specific meaning of the terms described above in the present utility model can be understood by those skilled in the art according to the specific circumstances. The direction words appearing in the utility model are used for better explaining the characteristics of the features and the relation among the features, and it is understood that when the arrangement direction of the utility model is changed, the characteristics of the features and the directions of the relation among the features are correspondingly changed, so that the direction words do not form absolute limiting effect on the characteristics of the features and the relation among the features in space, and only play a role in relative limiting.

As shown in fig. 1-8, the utility model provides copper foil-mirror plate-copper foil feeding and stacking equipment, which comprises a mirror plate storage and feeding device 1, a first copper foil storage and feeding device 2, a second copper foil storage and feeding device 3 and a transfer and stacking device 4; the mirror plate storage feeding device 1 comprises a mirror plate transfer mechanism 11, a mirror plate discharging mechanism 12 and two mirror plate storage levels 13, wherein the mirror plate storage levels 13 are used for storing a whole stack of mirror plates, and the mirror plate transfer mechanism 11 is used for transferring the mirror plate on one of the mirror plate storage levels 13 to the mirror plate discharging mechanism 12; the first copper foil storage and feeding device 2 comprises a first copper foil transfer mechanism 21, a mirror plate receiving mechanism 22 and two first copper foil storage positions 23, wherein the first copper foil storage positions 23 are used for storing a whole stack of copper foil, the mirror plate receiving mechanism 22 is in butt joint with the mirror plate discharging mechanism 12 and receives a mirror plate sent from the mirror plate discharging mechanism 12, and the first copper foil transfer mechanism 21 is used for transferring the copper foil on one of the first copper foil storage positions 23 to the mirror plate receiving mechanism 22 and stacking the copper foil on the upper side of the mirror plate to form a copper foil-mirror plate laminated structure; the second copper foil storage feeding device 3 comprises a second copper foil transfer mechanism 31, a switching platform 32 and a second copper foil storage position 33, wherein the second copper foil storage position 33 is used for storing a whole stack of copper foil, the switching platform 32 comprises a high receiving platform 321 and a low receiving platform 321, the switching platform 32 is provided with a receiving position 322 and a stacking position 323, the receiving platforms 321 can horizontally move to the receiving position 322 and the stacking position 323, the second copper foil transfer mechanism 31 is used for transferring the copper foil on the second copper foil storage position 33 to the receiving platform 321 positioned at the receiving position 322, and the receiving platform 321 is used for transferring the copper foil to the stacking position 323; the transfer stacker 4 is for transferring the copper foil-mirror plate laminated structure on the mirror plate receiving mechanism 22 to the receiving stage 321 at the stacking position 323 and stacking over the copper foil to form a copper foil-mirror plate-copper foil laminated structure.

Compared with the prior art, the copper foil-mirror plate-copper foil feeding and stacking equipment provided by the utility model changes the position layout and stacking direction of each feeding device, so that each feeding device can have enough space to set more storage positions, workers can put more materials into the equipment at one time, the times of reciprocating the equipment are reduced, and the labor intensity of the workers is also reduced.

In addition, after the material on the storage level is got, partial transfer mechanism can get another buttress material on another storage level immediately, and the staff can to empty storage level in the replenishment material again in suitable time can, has reduced the number of times that equipment shut down, improves production efficiency. For example, in the prior equipment, only one stack of materials can be placed at each of three storage positions, when the materials are taken out, workers need to add the materials to the three storage positions, each round needs to take three times of material supplementing time, and the equipment is stopped for corresponding time; after the feeding stacking equipment is improved, the feeding of the mirror plate storage feeding device 1 and the first copper foil storage feeding device 2 is not required to be stopped.

Further preferably, the second copper foil storage and feeding device 3 comprises two second copper foil storage sites 33. Thus, when the second copper foil storage and feeding device 3 is fed, the second copper foil storage and feeding device 3 does not need to be stopped. The solution shown in the drawings is to provide a second copper foil storage position 33 only in the second copper foil storage loading device 3, so as to reduce the longitudinal length of the second copper foil storage loading device 3, which is beneficial to the layout of the factory building. Both of the above schemes fall within the scope of the present utility model.

In this embodiment, the mirror plate discharging mechanism 12, the mirror plate receiving mechanism 22 and the stacking position 323 are arranged in the transverse direction, the mirror plate discharging mechanism 12 and the two mirror plate storing positions 13 are arranged in the longitudinal direction, the mirror plate receiving mechanism 22 and the two first copper foil storing positions 23 are arranged in the longitudinal direction, and the second copper foil storing position 33, the receiving position 322 and the stacking position 323 are arranged in the longitudinal direction. Based on the arrangement, the transverse width of the whole feeding and stacking equipment can be shortened to the greatest extent, and the factory building space is saved.

In the present embodiment, the transfer stacking device 4 includes a first pick-and-place mechanism 41 and a second pick-and-place mechanism 42 that can translate and lift, and the first pick-and-place mechanism 41 and the second pick-and-place mechanism 42 are arranged in a lateral direction and move synchronously, and when the first pick-and-place mechanism 41 picks up the copper foil-mirror plate laminated structure from the mirror plate receiving mechanism 22, the second pick-and-place mechanism 42 picks up the copper foil-mirror plate-copper foil laminated structure from the receiving table 321 located at the stacking position 323.

The layout is changed, and meanwhile, the switching platform 32 is arranged in the second copper foil storage and feeding device 3, and the addition of the switching platform 32 can ensure that the production rhythm of the equipment is not slowed down. In the first copper foil storage and feeding device 2, the first picking and placing mechanism 41 needs to complete the action of picking up the copper foil-mirror plate laminated structure on the mirror plate receiving mechanism 22, and then placing the copper foil-mirror plate laminated structure on the receiving table 321; in the second copper foil storage and feeding device 3, the second picking and placing mechanism 42 needs to perform the action of picking up the copper foil-mirror plate-copper foil laminated structure, and then sending the copper foil laminated structure to other subsequent equipment for further processing. As can be seen from the above-mentioned actions, when the first picking and placing mechanism 41 is moved away from the upper side of the first copper foil storage and feeding device 2, the first copper foil transferring mechanism 21 of the first copper foil storage and feeding device 2 can be operated and send new copper foil to the mirror plate receiving mechanism 22 at this time, but for the second copper foil storage and feeding device 3, after the second picking and placing mechanism 42 picks up the copper foil-mirror plate-copper foil laminated structure and moves away, the first picking and placing mechanism 41 clamps the copper foil-mirror plate and simultaneously comes to the upper side of the second copper foil storage and feeding device 3, if the second copper foil storage and feeding device 3 still adopts a similar action to the first copper foil storage and feeding device 2 to send new copper foil, the feeding rhythm of the second copper foil storage and feeding device 3 will not follow the first copper foil storage and feeding device 2, or the second copper foil transferring mechanism 31 will collide with the first picking and placing mechanism 41 or the second picking and placing mechanism 42, so that the second copper foil storage and feeding device 3 can not normally feed copper foil. In this embodiment, the copper foil is fed by switching, so that the second copper foil transferring mechanism 31 does not need to enter the lower parts of the first taking and placing mechanism 41 and the second taking and placing mechanism 42, the rhythm can be quickened, and the second copper foil transferring mechanism 31 is prevented from colliding with the first taking and placing mechanism 41 and the second taking and placing mechanism 42.

In the present embodiment, the first pick-and-place mechanism 41 includes two sets of first L-shaped pick-and-place claws 411 oppositely disposed in the longitudinal direction, the two sets of first L-shaped pick-and-place claws 411 being moved toward and away from each other to pick and place a material; the second picking and placing mechanism 42 includes two sets of second L-shaped picking and placing claws 421 disposed opposite to each other in the lateral direction, and the two sets of second L-shaped picking and placing claws 421 are close to and far from each other to pick and place the material. The L-shaped picking and placing claw is adopted to align the edges of materials, and the alignment directions of the two grabbing processes are different, so that the alignment effect can be improved.

In this embodiment, the mirror plate discharging mechanism 12 is a roller type discharging mechanism, and the mirror plate receiving mechanism 22 is a roller type receiving mechanism, so that the cost of the roller type mechanism is low. Preferably, a lifting conveying table 5 is further arranged between the mirror plate discharging mechanism 12 and the mirror plate receiving mechanism 22, and the lifting conveying table 5 is a roller conveying table, and a conveying plane of the lifting conveying table can be lifted to butt joint the mirror plate discharging mechanism 12 and the mirror plate receiving mechanism 22. In this embodiment, the lifting and conveying table 5 is provided to cope with the situation that the height of the factory building is different or the height of the mirror plate discharging mechanism 12 is different from the height of the mirror plate receiving mechanism 22.

In the present embodiment, the mirror plate storing level 13 can be raised and lowered, and the mirror plate transferring mechanism 11 can be longitudinally translated and raised and lowered. The first copper foil storage site 23 can be lifted and lowered, and the first copper foil transfer mechanism 21 can be longitudinally translated and lifted and lowered. The second copper foil storage site 33 can be lifted and lowered, and the second copper foil transfer mechanism 31 can be longitudinally translated and lifted and lowered. The structure setting of above-mentioned storage material level realizes that the whole buttress material lifts up after the material is taken a slice so that each transfer mechanism gets the material at same height, and translation and the lift of each transfer mechanism are put down in order to realize the transfer of material. The lifting of the storage level, the translation of the transfer mechanism and the lifting can be realized in a plurality of ways in the prior art, and therefore, the utility model is not repeated.

In conclusion, the copper foil-mirror plate-copper foil feeding and stacking equipment can reduce the shutdown caused by material supplement, improve the production efficiency, reduce the frequency of material supplement by workers to and fro equipment, and reduce the working strength.

The above-described embodiments and features of the embodiments may be combined with each other without conflict.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the scope of the present utility model, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made to the technical solution of the present utility model without departing from the spirit and scope of the technical solution of the present utility model.

Claims (10)

1. The copper foil-mirror plate-copper foil feeding and stacking equipment is characterized in that: the device comprises a mirror plate storage feeding device (1), a first copper foil storage feeding device (2), a second copper foil storage feeding device (3) and a transferring and stacking device (4);

the mirror plate storage feeding device (1) comprises a mirror plate transfer mechanism (11), a mirror plate discharging mechanism (12) and two mirror plate storage levels (13), wherein the mirror plate storage levels (13) are used for storing a whole stack of mirror plates, and the mirror plate transfer mechanism (11) is used for transferring the mirror plate on one of the mirror plate storage levels (13) to the mirror plate discharging mechanism (12);

the first copper foil storage feeding device (2) comprises a first copper foil transfer mechanism (21), a mirror plate receiving mechanism (22) and two first copper foil storage positions (23), wherein the first copper foil storage positions (23) are used for storing a whole stack of copper foil, the mirror plate receiving mechanism (22) is in butt joint with the mirror plate discharging mechanism (12) and receives a mirror plate sent from the mirror plate discharging mechanism (12), and the first copper foil transfer mechanism (21) is used for transferring copper foil on one of the first copper foil storage positions (23) to the mirror plate receiving mechanism (22) and stacking the copper foil on the upper side of the mirror plate to form a copper foil-mirror plate laminated structure;

the second copper foil storage feeding device (3) comprises a second copper foil transfer mechanism (31), a switching platform (32) and a second copper foil storage position (33), wherein the second copper foil storage position (33) is used for storing a whole stack of copper foil, the switching platform (32) comprises a high receiving platform (321) and a low receiving platform (322) and a stacking position (323), the two receiving platforms (321) can horizontally move to the receiving position (322) and the stacking position (323), the second copper foil transfer mechanism (31) is used for transferring the copper foil on the second copper foil storage position (33) to the receiving platform (321) positioned at the receiving position (322), and the receiving platform (321) is used for transferring the copper foil to the stacking position (323);

the transferring and stacking device (4) is used for transferring the copper foil-mirror plate stacking structure on the mirror plate receiving mechanism (22) to a receiving table (321) positioned at a stacking position (323) and stacking the copper foil to form the copper foil-mirror plate-copper foil stacking structure.

2. The copper foil-mirror plate-copper foil loading and stacking device according to claim 1, wherein: the mirror plate discharging mechanism (12), the mirror plate receiving mechanism (22) and the stacking position (323) are arranged transversely, the mirror plate discharging mechanism (12) and the two mirror plate storing positions (13) are arranged longitudinally, the mirror plate receiving mechanism (22) and the two first copper foil storing positions (23) are arranged longitudinally, and the second copper foil storing position (33), the receiving position (322) and the stacking position (323) are arranged longitudinally.

3. The copper foil-mirror plate-copper foil loading and stacking device according to claim 2, wherein: the transferring and stacking device (4) comprises a first picking and placing mechanism (41) and a second picking and placing mechanism (42) which can translate and lift, the first picking and placing mechanism (41) and the second picking and placing mechanism (42) are transversely arranged and synchronously move, and when the first picking and placing mechanism (41) picks up the copper foil-mirror plate stacking structure from the mirror plate receiving mechanism (22), the second picking and placing mechanism (42) picks up the copper foil-mirror plate-copper foil stacking structure from the receiving table (321) positioned at the stacking position (323).

4. The copper foil-mirror plate-copper foil loading and stacking device according to claim 3, wherein: the first picking and placing mechanism (41) comprises two groups of first L-shaped picking and placing claws (411) which are oppositely arranged along the longitudinal direction, and the two groups of first L-shaped picking and placing claws (411) are mutually close to and far away from each other to pick and place materials; the second picking and placing mechanism (42) comprises two groups of second L-shaped picking and placing claws (421) which are arranged oppositely in the transverse direction, and the two groups of second L-shaped picking and placing claws (421) are close to and far away from each other so as to pick and place materials.

5. The copper foil-mirror plate-copper foil loading and stacking device according to claim 2, wherein: the mirror plate discharging mechanism (12) is a roller type discharging mechanism, and the mirror plate receiving mechanism (22) is a roller type receiving mechanism.

6. The copper foil-mirror plate-copper foil loading and stacking device according to claim 5, wherein: a lifting conveying table (5) is further arranged between the mirror plate discharging mechanism (12) and the mirror plate receiving mechanism (22), the lifting conveying table (5) is a roller type conveying table, and a conveying plane of the lifting conveying table can be lifted to butt the mirror plate discharging mechanism (12) and the mirror plate receiving mechanism (22).

7. The copper foil-mirror plate-copper foil loading and stacking device according to claim 2, wherein: the mirror plate storage level (13) can be lifted, and the mirror plate transfer mechanism (11) can be longitudinally translated and lifted.

8. The copper foil-mirror plate-copper foil loading and stacking device according to claim 2, wherein: the first copper foil storage position (23) can be lifted, and the first copper foil transfer mechanism (21) can be longitudinally translated and lifted.

9. The copper foil-mirror plate-copper foil loading and stacking device according to claim 2, wherein: the second copper foil storage position (33) can be lifted, and the second copper foil transfer mechanism (31) can be longitudinally translated and lifted.

10. The copper foil-mirror plate-copper foil loading and stacking device according to any one of claims 1 to 9, wherein: the second copper foil storage and feeding device (3) comprises two second copper foil storage positions (33).