CN110983847A - Waste paper deinking machine with high mixing efficiency - Google Patents

Abstract

The invention provides a waste paper deinking machine with high mixing efficiency, which comprises: the paper pulp processing device comprises a box body, a top cover, a stirring mechanism, a deinking mechanism, a feeding hopper, a feeding pipe and an opening degree adjusting mechanism, wherein the box body is erected on the ground through a vertical frame, the top of the box body is opened and closed by the top cover, a processing cavity for containing paper pulp is formed in the box body, and the top cover is detachably connected with the box body through screws; a feed hopper is arranged above the top cover, the small end of the feed hopper is communicated to one end of a feed pipe, the other end of the feed pipe is connected to the top cover, and the feed pipe is communicated with the treatment cavity; the opening adjusting mechanism is arranged on the feeding pipe and used for opening and closing the feeding pipe and adjusting the opening of the feeding pipe. The waste paper deinking machine with high mixing efficiency solves the problem of difficult stirring caused by the fact that direct paper scraps are poured into treatment liquid one by one and are easy to conglobate after meeting water.

Description

Waste paper deinking machine with high mixing efficiency

Technical Field

The invention relates to a device for paper deinking, in particular to a waste paper deinking machine with high mixing efficiency.

Background

In the prior art, a wastepaper deinking machine comprises: the box body is erected on the ground through a vertical frame, the top of the box body is opened and closed by the top cover, a processing cavity for processing paper pulp is arranged in the box body, the deinking mechanism and the stirring mechanism are arranged on the box body or the top cover, the deinking mechanism is used for deinking paper pulp liquid in the processing cavity, and the stirring mechanism is used for stirring the paper pulp in the processing cavity, so that the paper pulp can be fully contacted with deinking treatment liquid medicine, but because paper scraps are piled in a large pile and poured in the liquid before treatment, the paper scraps are easy to adhere together and hold together after meeting water, the back stirring is difficult,

disclosure of Invention

The invention provides a waste paper deinking machine with high mixing efficiency, which solves the problem of difficult stirring caused by the fact that direct paper scraps are poured into treatment liquid one by one in a large pile and are easily conglobated after meeting water in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

a wastepaper deinking machine with high mixing efficiency comprising: the device comprises a box body, a top cover, a stirring mechanism, a deinking mechanism, a feed hopper, a feed pipe and an opening degree adjusting mechanism, wherein the box body is erected on the ground through a vertical frame, the top of the box body is opened and closed by the top cover, a treatment cavity for containing paper pulp is formed in the box body, the top cover is detachably connected with the box body through screws, a stirring framework for stirring the paper pulp in the treatment cavity is installed on the top cover, the deinking mechanism extending into the treatment cavity is installed on the side wall of the box body, and the deinking mechanism is used for deinking the paper pulp; a feed hopper is arranged above the top cover, the small end of the feed hopper is communicated to one end of a feed pipe, the other end of the feed pipe is connected to the top cover, and the feed pipe is communicated with the treatment cavity; the opening adjusting mechanism is arranged on the feeding pipe and used for opening and closing the feeding pipe and adjusting the opening of the feeding pipe.

Compared with the prior art, the invention has the following beneficial effects:

realized the switching to the inlet pipe, realized putting into the wastepaper in the feeder hopper when needs, made things convenient for the use, realized using aperture adjustment mechanism to adjust the aperture of inlet pipe simultaneously, made things convenient for the speed that the wastepaper got into to the treatment chamber as required to be adjusted, avoided once only a big pile of wastepaper to meet the treatment fluid and embrace the group, avoided embracing the influence to stirring work behind the group, the degree of difficulty of stirring work has been reduced, stirring efficiency has been improved, realized unloading while stirring, stirring effect has been improved.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a cross-sectional view of a wastepaper deinking machine with high mixing efficiency;

FIG. 2 is an enlarged view of the sampling device of FIG. 1;

fig. 3 is an enlarged view of a portion a in fig. 2.

Reference numerals: the device comprises a box body 1, a top cover 2, a deinking mechanism 5, a stirring mechanism 6, a stirring motor 61, a stirring frame 62, a sampling device 7, a plug 71, a fixed ring 711, a sealing ring 712, a push rod 72, a second spring 73, a telescopic body 731, a first mounting hook 732, a second mounting hook 733, a mounting cylinder 74, a body 741, a first ring 742, a second ring 743, a sampling tube 75, a mounting section 721, a boosting section 722, a first connecting component 76, a third spring 761, an L-shaped rod 762, a clamping pin 763, a disassembly-assisting component 77, a threaded sleeve 771, an action rod 772, a fourth spring 773, a screw 774, a second connecting component 78, a moving rod 781, a fifth spring 782, a third connecting component 79, an inserting rod 791, a moving block 792, a fifth spring 793, a feeding hopper 81, a feeding tube 82, an opening-closing sheet 91, a sliding rod 92, a supporting plate 93, an L-shaped plate 94, a limiting rod 95, a first spring 96, A connecting plate 97.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the functions of the invention clearer and easier to understand, the invention is further explained by combining the drawings and the detailed implementation mode:

as shown in fig. 1 to 3, the present invention provides a waste paper deinking machine with high mixing efficiency, comprising: the device comprises a box body 1, a top cover 2, a stirring mechanism 6, a deinking mechanism 5, a feed hopper 81, a feed pipe 82 and an opening degree adjusting mechanism 9, wherein the box body 1 is erected on the ground through a vertical frame, the top of the box body 1 is opened and closed by the top cover 2, a processing cavity for containing paper pulp is formed in the box body 1, the top cover 2 is detachably connected with the box body 1 through screws, the top cover 2 is provided with a stirring frame 62 for stirring the paper pulp in the processing cavity, the side wall of the box body 1 is provided with the deinking mechanism 5 extending into the processing cavity, and the deinking mechanism 5 is used for deinking the paper pulp liquid; a feed hopper 81 is arranged above the top cover 2, the small end of the feed hopper 81 is communicated to one end of a feed pipe 82, the other end of the feed pipe 82 is connected to the top cover 2, and the feed pipe 82 is communicated with the treatment cavity; the feed pipe 82 is provided with an opening degree adjusting mechanism 9, and the opening degree adjusting mechanism 9 is used for opening and closing the feed pipe 82 and adjusting the opening degree of the feed pipe 82.

In order to design the opening degree adjusting mechanism 9 with simple structure and convenient use, the opening degree adjusting mechanism 9 includes: the opening and closing plate 91, the sliding rod 92, the supporting plate 93, the LL-shaped plate 94, the limiting rod 95, the first spring 96 and the connecting plate 97, the supporting plate 93 positioned on the horizontal plane is installed on the feeding pipe 82, the sliding rod 92 is installed on the supporting plate 93 in a sliding manner, the sliding rod 92 is connected to one end of the opening and closing plate 91, the other end of the opening and closing plate 91 extends into the feeding pipe 82, the opening and closing plate 91 is used for opening and closing the feeding pipe 82, the LL-shaped plate 94 is installed on the supporting plate 93, the limiting rod 95 penetrates through the top end of the LL-shaped plate 94, the limiting rod 95 can move in the vertical direction, at least three first through holes are formed in the sliding rod 92, a second through hole is formed in the supporting plate 93, one end of the limiting rod 95 is used for penetrating through the first through hole and then being inserted into the second through hole, the other end of the limiting rod 95 is, the stopper rod 95 can be kept inserted into the second through hole after passing through the first through hole under the elastic force of the first spring 96. When the opening degree is adjusted, firstly, the connecting plate is pulled, so that the connecting plate drives the limiting rod 95 to be away from the sliding rod 92, and the limiting rod 95 releases the sliding rod 92; then, the sliding rod 92 is moved, so that the sliding rod 92 drives the opening and closing sheet 91 to slide relative to the feeding pipe 82, the size of a gap between one side, away from the sliding rod 92, of the opening and closing sheet 91 and the inner wall of the feeding pipe 82 is adjusted, and the opening degree of the feeding pipe 82 is adjusted to the required size; finally, the connecting plate is released, under the elastic force of the first spring 96, the limiting rod 95 penetrates through the aligned first through hole and then is inserted into the second through hole, limiting of the opening and closing piece 91 is achieved, the opening and closing piece 91 is guaranteed to be in a required opening degree, the stirring motor 61 is started, material discharging and stirring are achieved, and the stirring effect is improved.

For the simple structure's of design rabbling mechanism, the rabbling mechanism includes: agitator motor and stirring frame, install agitator motor at the top cap top, install on agitator motor's the output shaft and stretch into the stirring frame to the treatment chamber.

In order to realize the detection of the pulp liquid in the processing cavity and avoid the influence on the subsequent pulp liquid reshaping caused by the insufficient deinking work, a sampling device 7 for sampling the pulp liquid in the processing cavity is arranged on the box body 1.

The sampling device 7 includes: the method comprises the following steps: the device comprises a plug 71, a push rod 72, a second spring 73, an installation tube 74 and a sampling tube 75, wherein the installation tube 74 is inserted into the wall of the box body 1, the sampling tube 75 positioned below the installation tube 74 is installed on the outer wall of the box body 1, the inner wall of the box body 1 is sunken to form a first through hole, the processing cavity is communicated with the end face of the installation tube 74 positioned in the wall of the box body 1 through the first through hole, the end face of the installation tube 74 positioned in the wall of the box body 1 is sunken to form a second through hole, and the second through hole is communicated to the sampling; the push rod 72 capable of moving relative to the installation tube 74 and the box body 1 is installed in the installation tube 74, one end of the push rod 72 is located outside the installation tube 74, the other end of the push rod 72 is fixed to the plug 71 located in the first through hole, the push rod 72 is connected to one end of the second spring 73, the other end of the second spring 73 is connected to the installation tube 74, and the plug 71 can be kept to seal the connection position of the second through hole and the first through hole under the elastic force of the second spring 73. Through setting up the sampling pipe and passing through first through-hole and second through-hole intercommunication, can draw solution through first through-hole and second through-hole when having realized the sampling, avoided setting up the epicoele because of deinking roof portion and leading to the problem of sampling difficulty to appear, the step of simplifying the sampling has realized also can sampling in the course of the work, and adjust the content of chemical according to the solution detected value after the sampling, make chemical content in the solution accurate, make the deinking effect guarantee, avoid influencing the deinking quality because of chemical content is not in place. When sampling is needed, only the push rod 72 needs to be pushed, so that the plug 71 is separated from the first through hole, and due to the fact that a gap exists between the push rod and the first through hole, the solution can be introduced into the second through hole and then discharged from the second through hole, the sampling tube is located below the mounting tube 74, and the solution can flow into the sampling tube more easily through gravity.

Since the second spring 73 needs to be in an elongated state all the time to ensure that the second through hole is tightly sealed, the second spring 73 in the elongated state for a long time is very easily damaged, so that the sealing performance of the plug 71 cannot be realized, and in order to avoid the above phenomenon, the periodic replacement of the second spring 73, the boosting section 722 and the mounting ring is realized, and the push rod 72 includes: the installation section 721, the boosting section 722 and the first connecting assembly 76, one end of the installation section 721 extends into the first through hole and is used for installing the plug 71, the other end of the installation section 721 extends into the installation cylinder 74, the installation section 721 is detachably connected with one end of the boosting section 722 through the first connecting assembly 76, the boosting section 722 is used for installing the second spring 73, and the other end of the boosting section 722 penetrates out of the installation cylinder 74;

the mounting cylinder 74 is provided with an auxiliary dismounting assembly 77, and the auxiliary dismounting assembly 77 is positioned beside the boosting section 722 and the mounting section 721;

an elastic member is disposed in the first connecting assembly 76, the connection between the pushing-aid section 722 and the mounting section 721 can be maintained under the elastic force of the elastic member, and the adjustment of the detaching-aid assembly 77 can force the connecting assembly not to connect the pushing-aid section 722 with the mounting section 721.

In order to realize the detachable connection of the second spring 73, one end of the second spring 73 is detachably connected to the boosting section 722 through a second connection assembly 78, and the other end of the second spring 73 is detachably connected to the mounting cylinder 74 through a third connection assembly 79.

The mounting cylinder 74 includes: the box body comprises a body 741, a first circular ring 742 and a second circular ring 743, wherein the body 741 is hollow and cylindrical, one end of the body 741 is fixed to the box body 1, the first circular ring 742 is installed in the other end of the body 741, the second circular ring 743 is installed on one side, deviating from the second circular ring 743, of the first circular ring 742, the second circular ring 743 is connected with the first circular ring 742 through a screw, and the disassembly assisting assembly 77 is installed on the body 741.

In order to design the first connecting assembly 76 and the detachment-assist assembly 77 with simple structures, the push-assist section 722 includes: a rectangular parallelepiped portion and a cylindrical portion, one end of the rectangular parallelepiped portion is located outside the mounting cylinder 74, the other end of the rectangular parallelepiped portion is fixed to one end of the cylindrical portion located in the first cavity, the other end of the cylindrical portion is inserted into the mounting section 721, the rectangular parallelepiped portion cannot rotate relative to the mounting ring, the cylindrical portion can rotate in the mounting section 721, the outer wall of the cylindrical portion is recessed to form an annular slot, since the second spring 73 needs to be installed on the boost section 722, when the installation ring is rotated, if the installation ring and the boost section 722 are rotated relatively, the second spring 73 is twisted and damaged, in order to avoid this phenomenon, a rectangular parallelepiped portion is provided, and a cylindrical portion is provided, so that the assist section 722 can rotate with respect to the mounting section 721, at this time, the mounting section 721 is in a non-movable state, and the annular clamping groove is arranged, so that the subsequent alignment of the clamping pin 763 and the clamping groove is facilitated, and the clamping pin 763 cannot be aligned with the clamping groove due to the fact that the mounting ring drives the rotation angle of the boosting section 722;

the first connection assembly 76 includes: a third spring 761, an L-shaped rod 762 and a detent 763, wherein the detent 763 is disposed beside the detent, the detent 763 is perpendicular to the cylindrical portion, a second cavity is disposed beside the cylindrical portion in the mounting section 721, the detent 763 extends into the second cavity and is fixed to one end of the L-shaped rod 762, the other end of the L-shaped rod 762 can penetrate through the mounting section 721, the L-shaped rod 762 is fixed to one end of the third spring 761, the other end of the third spring 761 is fixed to the mounting section 721, the detent 763 can be inserted into the detent under the elastic force of the third spring 761, and the third spring 761 is an elastic member;

the detachment-assist assembly 77 includes: the screw sleeve 771, the action rod 772, the fourth spring 773 and the screw 774 are installed on the body 741, the screw 774 is connected with the screw 774 in the screw sleeve 771 in a threaded mode, the screw 774 is close to one end of the action rod 772, the other end of the action rod 772 can be tightly attached to the L-shaped rod 762, the screw 774 and the action rod 772 are parallel to the clamping pin 763, the action rod 772 is fixed to one end of the fourth spring 773, the other end of the fourth spring 773 is fixed to the action rod 772, and the action rod 772 can be kept away from the L-shaped rod 762 under the elastic force of the fourth spring 773.

In order to realize that the plug 71 can press the second through hole away from the edge of the sampling tube when sealing the second through hole, the plug 71 includes: the end part of the mounting section 721 located in the first through hole penetrates through and is fixed with the fixing ring 711, the fixing ring 711 is fixed on one side close to the mounting cylinder 74, the sealing ring 712 is made of elastic rubber materials, and the sealing ring 712 is used for sealing the opening of the second through hole far away from the sampling tube.

The second spring 73 includes: a telescopic body 741731, a first mounting hook 732 and a second mounting hook 733, the telescopic body 741731 has elasticity, one end of the telescopic body 741731 is fixed to the first mounting hook 732, and the other end of the telescopic body 741731 is fixed to the two second mounting hooks 733.

The second connecting assembly 78 includes: the end face of the cylindrical portion inserted into the mounting section 721 is recessed to form a first moving hole, the moving rod 781 is installed in the first moving hole, the moving rod 781 can move relative to the boosting section 722 in a direction parallel to the boosting section 722, the moving rod 781 is connected to one end of the fifth spring 782, the other end of the fifth spring 782 is fixed to the cylindrical portion, a first insertion hole communicated with the first moving hole is formed in the cylindrical portion, the first insertion hole is used for inserting the first mounting hook 732, the direction in which the first mounting hook 732 is inserted into the first insertion hole is parallel to the moving section, when the cylindrical portion is not inserted into the mounting section 721, the moving rod 781 is kept away from the first insertion hole under the elastic force of the fifth spring 782, and after the cylindrical portion is inserted into the mounting section 721, the moving rod 781 is inserted into the first mounting hook 732 under the extrusion effect of the mounting section on the moving rod 781.

The number of the third connecting assemblies 79 is two, each second mounting hook 733 is connected with the second ring 743 through one third connecting assembly 79, the boosting section 722 moves under the guide of the second ring 743, and the inner diameter of the first ring 742 is larger than that of the second ring 743, so that the inner wall of the first ring 742 cannot be in contact with the second spring 73, and the first ring 742 is prevented from influencing the extension and retraction of the second spring 73.

Each third connecting member 79 includes: an insert rod 791, a moving block 792 and a fifth spring 793, a second moving hole is formed by recessing the side wall of the second ring 743, the moving block 792 is installed in the second moving hole, the moving block 792 is fixed to one end of the fifth spring 793, the other end of the fifth spring 793 is fixed to the second ring 743, the moving block 792 can move in the direction perpendicular to the boosting section 722 under the guide of the second ring 743, an insert rod 791 is fixed on the moving block 792, a sliding groove for the insert rod 791 to slide is formed on the second ring 743, the insert rod 791 is parallel to the boosting section 722, a second insertion hole for the second mounting hook 733 to be inserted is formed on the second ring 743, the direction for the second mounting hook 733 to be inserted into the second insertion hole is parallel to the moving block 792, two third insertion holes are formed on the first ring 742, each insert rod 791 is inserted into the third insertion hole, and the third moving block 792 can keep away from the second insertion hole under the elastic force of the fifth spring 793, the insert rod 791 is inserted into the third insertion hole and the moving block 792 is inserted into the second mounting hook 733 when the cylindrical portion approaches the mounting section 721. The inserting rod 791 is rotated by a proper length to ensure that the inserting rod 791 is already inserted into the second insertion hole when the second spring 73 is just deformed in the process of inserting the boosting section 722 and the second spring 73 into the body 741, so that the second mounting hook 733 is limited, the second mounting hook 733 is prevented from being separated from the moving block 792, and meanwhile, when the second spring 73 is continuously deformed, the inserting rod 791 does not block the second spring 73 and the boosting section 722 from being inserted into the body 741.

The working principle of the embodiment is as follows: when it is necessary to detach the second spring 73, first, the screw is rotated so that the second circular loop 743 is disengaged from the first circular loop 742; then, the boosting section 722 needs to be pulled, so that the fixing ring 711 presses the sealing ring 712 against the mounting cylinder 74, and since the second spring 73 is damaged, the state that the fixing ring 711 presses the sealing ring 712 against the mounting cylinder 74 may not be maintained, so that the boosting section 722 needs to be manually pulled to maintain the state, and of course, the shape of the mounting section 721 is rectangular, and the mounting section 721 cannot rotate relative to the mounting cylinder 74, so that the action rod 772 and the L-shaped rod 762 are aligned at this time; then, the screw 774 is rotated, so that the screw 774 extrudes the action rod 772 to move towards the L-shaped rod 762, the fourth spring 773 is forced to be compressed, the action function extrudes the L-shaped rod 762 to move, the third spring 761 deforms, finally, the clamping pin 763 is far away from the clamping groove and retracts into the installation section 721, and the action rod 772 stretches into the installation section 721 to limit the installation section 721 not to move; finally, the boosting section 722 is pulled, the second spring 73, the boosting section 722 and the mounting ring are disassembled, so that new second spring 73, boosting section 722 and second ring 743 can be placed, the moving block 792 is separated from the second mounting hook 733 under the elastic force of the fifth spring 793, the moving rod 781 is separated from the first mounting hook 732 under the elastic force of the fifth spring 782, the boosting section 722 and the second ring 743 can be easily separated by pulling the second spring 73, and the boosting section 722 is separated from the second ring 743 at the same time, so that the single second spring 73, the boosting section 722 and the second ring 743 can be disassembled, and meanwhile, the sampling device 7 can seal the second through hole when not in use, the sealing performance is ensured, and liquid leakage is avoided.

When installed, the boost section 722 is first threaded through the second loop 743; then, the first mounting hook 732 of the second spring 73 is inserted into the first insertion hole, the second mounting hook 733 of the second spring 73 is inserted into the second insertion hole, and the second spring 73, the second ring 743 and the boosting section 722 are manually kept from relative displacement; then, the second spring 73 and the boosting section 722 are pushed into the body 741, with slow pushing, before the second spring 73 is about to deform, the inserting rod 791 is inserted into the third jack, because the inserting rod 791 is not automatically aligned with the third jack, the inserting rod 791 needs to be manually moved to enable the inserting rod 791 to be inserted after being aligned with the third jack, and the moving rod 781 passes through the first mounting hook 732, before the second spring 73 is deformed, the first mounting hook 732 and the second mounting hook 733 are limited, so that the second spring 73 is prevented from being separated from the boosting section 722 and the second ring 743, then the second ring 743 is tightly attached to the first ring 742, the second spring 73 is extended, at this time, because the first mounting hook 732 and the second mounting hook 733 are limited, the second spring 73 is not separated from the second ring 743 and the boosting section, and the inserting rod 722 and the moving rod 781 do not hinder the boosting section 73 from moving, maintaining the position of the boost section 722 in close proximity to the mounting section 721; finally, the screw 774 is rotated to disengage the action rod 772 from the L-shaped rod 762, and the pin 763 is inserted into the slot on the cylindrical portion under the elastic force of the third spring 761, so that the boost section 722 is installed relative to the installation section 721.

Finally, the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting, although the present invention 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 may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all of them should be covered in the claims of the present invention.

Claims (5)

1. A waste paper deinking machine with high mixing efficiency, comprising: the device comprises a box body, a top cover, a stirring mechanism, a deinking mechanism, a feed hopper, a feed pipe and an opening degree adjusting mechanism, wherein the box body is erected on the ground through a vertical frame, the top of the box body is opened and closed by the top cover, a treatment cavity for containing paper pulp is formed in the box body, the top cover is detachably connected with the box body through screws, a stirring framework for stirring the paper pulp in the treatment cavity is installed on the top cover, the deinking mechanism extending into the treatment cavity is installed on the side wall of the box body, and the deinking mechanism is used for deinking the paper pulp;

a feed hopper is arranged above the top cover, the small end of the feed hopper is communicated to one end of a feed pipe, the other end of the feed pipe is connected to the top cover, and the feed pipe is communicated with the treatment cavity;

the opening adjusting mechanism is arranged on the feeding pipe and used for opening and closing the feeding pipe and adjusting the opening of the feeding pipe.

2. A waste paper deinking machine having high mixing efficiency as recited in claim 1, wherein the opening degree adjusting mechanism comprises: the opening and closing sheet, the sliding rod, the supporting plate, the L-shaped plate, the limiting rod, the first spring and the connecting plate, the supporting plate positioned on the horizontal plane is arranged on the feeding pipe, a sliding rod is arranged on the supporting plate in a sliding way, the sliding rod is connected to one end of an opening and closing sheet, the other end of the opening and closing sheet extends into the feeding pipe, the opening and closing sheet is used for opening and closing the feeding pipe, an L-shaped plate is arranged on the supporting plate, the top end of the L-shaped plate passes through a limiting rod, the limiting rod can move in the vertical direction, at least three first through holes are arranged on the sliding rod, a second through hole is arranged on the supporting plate, one end of the limiting rod is inserted into the second through hole after penetrating through the first through hole, the other end of the limiting rod is fixed to the connecting plate, the connecting plate is fixed to one end of the first spring, the other end of the first spring is fixed to the L-shaped plate, the limiting rod can be kept to penetrate through the first through hole and then be inserted into the second through hole under the elastic force of the first spring.

3. A waste paper deinking machine having high mixing efficiency as recited in claim 1, wherein the stirring mechanism comprises: agitator motor and stirring frame, install agitator motor at the top cap top, install on agitator motor's the output shaft and stretch into the stirring frame to the treatment chamber.

4. A waste paper deinking machine having high mixing efficiency as set forth in claim 1, wherein a sampling device for sampling the pulp liquid in the treatment chamber is installed on the casing.

5. A waste paper deinking machine with high mixing efficiency as set forth in claim 4, wherein the sampling means comprises: the method comprises the following steps: the device comprises a plug, a push rod, a second spring, an installation cylinder and a sampling tube, wherein the installation cylinder is inserted into the wall of a box body, the sampling tube positioned below the installation cylinder is installed on the outer wall of the box body, the inner wall of the box body is sunken to form a first through hole, the processing cavity is communicated with the end face, positioned in the wall of the box body, of the installation cylinder through the first through hole, the end face, positioned in the wall of the box body, of the installation cylinder is sunken to form a second through hole, and the second through; install the push rod that can remove relative installation section of thick bamboo and box in the installation section of thick bamboo, push rod one end is located outside the installation section of thick bamboo, and the push rod other end is fixed to the end cap that is located first through-hole, and the push rod is connected to second spring one end, and the second spring other end is connected to the installation section of thick bamboo, can keep the end cap to seal the junction of second through-hole and first through-hole under second spring force.

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